FCC ID: QHYRPM-A5A11-B05 The OneCell RP5100 LTE / 5G Band 5

ONECELL RP5200 Hardware Installation Guide Release 5.5 Document Number: M0304AG Document Revision: 5.5.06 Date: December 2021 DRAFT Copyright 2021 CommScope, All rights reserved. THIS DOCUMENT HAS BEEN DEVELOPED BY COMMSCOPE, AND IS INTENDED FOR THE USE OF ITS CUSTOMERS AND CUSTOMER SUPPORT PERSONNEL. THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE. ALL STATEMENTS, INFORMATION, AND RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED. USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS. THE SOFTWARE LICENSE AND LIMITED WARRANTY FOR THE ACCOMPANYING PRODUCT ARE SET FORTH IN THE INFORMATION PACKET THAT SHIPPED WITH THE PRODUCT AND ARE INCORPORATED HEREIN BY REFERENCE. IF YOU ARE UNABLE TO LOCATE THE SOFTWARE LICENSE OR LIMITED WARRANTY, CONTACT YOUR COMMSCOPE SALES REPRESENTATIVE FOR A COPY. T F A R D ii M0304AG 5.5.06 December 2021 Contents Document revision history About this document Audience ...................................................................................................................... xi Purpose......................................................................................................................... xi What you need to know ............................................................................................... xi Customer documentation ............................................................................................. xi Conventions ...............................................................................................................xiii Notes, cautions, and warnings ................................................................................... xiv Chapter 1 CommScope ONECELL overview Overview....................................................................................................................1-2 CommScope ONECELL system................................................................................1-2 ONECELL hardware components .............................................................................1-3 Baseband Controller physical ports.....................................................................1-3 Chapter 2 RP5200i installation Appendix A Safety RP5200i installation overview...................................................................................2-2 Ceiling mount.............................................................................................................2-3 Mounting the Radio Point on the ceiling tile ......................................................2-4 Radiation Exposure Statement.................................................................................. A-2 FCC Part 15 ........................................................................................................ A-2 EN55032............................................................................................................. A-2 Human exposure limits for ONECELL deployments ............................................... A-2 Reference documents ......................................................................................... A-4 FCC ID...................................................................................................................... A-5 RP5200 ............................................................................................................... A-5 Appendix B Installation troubleshooting Radio Point RP5200 LED patterns ........................................................................... B-2 D R A F T iii ONECELL RP5200 Hardware Installation, Release 5.5 Contents Appendix C Specifications Environmental and physical specifications............................................................... C-1 SPF/SPF+ specifications........................................................................................... C-2 Appendix D Field Replaceable Units FRU overview...........................................................................................................D-2 Replacing RP5200i radio point .................................................................................D-2 Replacing RP5200i radio modules............................................................................D-7 Appendix E Cable installation and power separation guidelines Overview................................................................................................................... E-2 Cable handling .......................................................................................................... E-2 Cable termination...................................................................................................... E-3 Cable splicing ..................................................................................................... E-4 Cable termination ............................................................................................... E-5 Cable grounding ............................................................................................... E-10 Lightning protection................................................................................................ E-12 Important guidelines......................................................................................... E-12 Indoor box ........................................................................................................ E-12 Outdoor protection ........................................................................................... E-13 Ceiling connector .................................................................................................... E-15 Patch panel .............................................................................................................. E-17 Power separation guidelines ................................................................................... E-17 T F A R D iv M0304AG 5.5.06 December 2021 Contents D R A F T v ONECELL RP5200 Hardware Installation, Release 5.5 List of figures Figure 1-1 Figure 1-2 Figure 2-1 Figure 2-2 Figure E-1 Figure E-2 Figure E-3 Figure E-4 Figure E-5 Figure E-6 Figure E-7 ONECELL solution .........................................................................1-3 Baseband Controller ports ...............................................................1-5 CommScope ceiling mounting kit ..................................................2-3 Drop rail ..........................................................................................2-4 Unreel cable .................................................................................... E-2 Cable with sock attached using tie wrap......................................... E-3 RJ45, IP67 connector...................................................................... E-3 Assembling the connector on the RP end ....................................... E-4 CAT6-A lightning protector ......................................................... E-13 Remote equipment protection for outdoor devices....................... E-14 Protector box mounted to pole...................................................... E-15 D R A F T vi ONECELL RP5200 Hardware Installation, Release 5.5 List of tables Table 1 Table 2 Table 1-1 Table A-1 Table C-1 Table E-1 Customer documentation ....................................................................xii Conventions .......................................................................................xiii Baseband Controller physical port assignments.................................1-4 RF exposure for ONECELL at maximum power internal antennas for RP5200 ........................................................................................A-3 Environmental and Physical specifications....................................... C-1 CAT-6A protection equipment parts list ......................................... E-13 D R A F T vii ONECELL RP5200 Hardware Installation, Release 5.5 List of tables T F A R D viii M0304AG 5.5.06 December 2021 Document revision history The following section lists documentation changes in ONECELLRP5200 Installation Guide, v5.5 (M0304AG). Revision 5.5.06 (December 3, 2021) Removed Draft watermark Revision 5.5.05 (November 2, 2021) Added Appendix D, Field Replaceable Units Revision 5.5.04 (October 6, 2021) Revised drawings in Chapter 2, RP5200i installation Revision 5.5.03 (July 9, 2021) Changed RP5100 to RP5200 in FCC Part 15 on page A-2 Removed Green, blinking row for Eth 1 and Eth 2 in table under Radio Point RP5200 LED patterns on page B-2 Revision 5.5.02 (April 28, 2021) Revised notes under RP5200i installation overview on page 2-2 Replaced drawing under step 3 on page 2-5 and step 6 on page 2-7 Revision 5.5.01 (April 20, 2021) Initial document release ONECELL RP5200 Hardware Installation, Release 5.5 D R A F T ix Document revision history T F A R D x M0304AG 5.5.06 December 2021 About this document This document provides the procedures for installing RP5200 Radio Points. Audience Purpose This document is written for computer hardware installers and administrators, network architects and business planners who are responsible for the planning and design of the CommScope ONECELL deployment environment. This guide provides the information necessary for installing the RP5200 hardware in the operators network. What you need to know The reader should have a basic understanding of:

Data networks LTE technology General telecommunications practices Customer documentation The following table lists available documents in the ONECELL documentation suite. ONECELL RP5200 Hardware Installation, Release 5.5 D R A F T xi About this document Table 1. Customer documentation Title Contents ONECELL Installation Guide, v5.5 (M0304AC) Includes detailed installation instructions for Baseband Controller and Radio Points hardware. ONECELL Feature Guide, v5.5

(M0304AE) ONECELL Network Planning Guide, v5.5 (M0304AF) Contains a description of anchor features for the current and previous releases, and a system overview, including CommScope provided components and required components from other vendors. Describes main components of the ONECELL system, high-level view of hardware components, how do you engineer an in-building system, how do you determine Radio Points locations, and how to design in-building systems. Contains best practices for deployment, including when to use clustering, and how to manage capacity. ONECELL RP5200 Installation Guide, v5.5 (M0304AG) Includes detailed installation instructions for RP5200 Radio Points hardware. OM and KPI Reference for ONECELL Devices, v5.5

(M0304AK) Describes the operational measurements and key performance indicators for ONECELL devices. ONECELL Troubleshooting, v5.5

(M0304AJ) Covers common troubleshooting scenarios in deployed devices and troubleshooting methods. ONECELL Administration, v5.5

(M0304AH) Describes how to operate, maintain and manage ONECELL devices using the Baseband Controllers Web UI. ONECELL Device Alarm Reference (M0304AL) Includes ONECELL device alarm information. ONECELL RP5100 Installation Guide, v5.5 (M0304AP) Includes detailed installation instructions for RP5100 Radio Points hardware. M0304AG 5.5.06 December 2021 T F A R D xii About this document Conventions This guide uses the following text conventions, as applicable. Table 2. Conventions Convention Description Syntax symbols

Font usage Bold input font Italic input font Plain output font Italic output font Enclose a required parameter or set of parameters. For example:

>band-class <class>

<class> is a required parameter. Enclose an optional parameter or set of parameters. For example:

>activate image <version> [reboot]

[reboot] is an optional parameter. Separates items on a list of parameters, only one of which can be used. For example:

>channel-included <yes|no>

A valid command is:

>channel-included yes Indicates text that must be entered exactly as shown. For example:

Enter ping 192.23.10.12. Indicates a variable parameter for which you must provide an actual value. For example:

>authentication key <aukey>

<aukey> is a variable parameter. A valid command is:

>authentication key 9782503000 Indicates system output in a command line or system-

generated file. For example:

IP address 192.23.10.12 is alive. Indicates a variable in system output in a command line or system-generated file. For example:

Installation of release <release> is complete. D R A F T xiii ONECELL RP5200 Hardware Installation, Release 5.5 About this document Table 2. Conventions Convention Description blue text Indicates a hypertext link. Plain italic font Bold font Other conventions

Indicates file names, directory paths, book titles, chapter titles, and user accounts. Indicates text that appears on screen exactly as shown, for example, names of screens, names of buttons, items on menus, and items on pull down lists. Indicates graphical user interface (GUI) menu path. For example:

Select Edit > Add Network to open the Add Network screen. Notes, cautions, and warnings NOTE Notes provide additional information about the subject text. CAUTION Cautions indicate that procedures, if performed incorrectly, can cause equipment damage or data loss. WARNING Warnings indicate that procedures, if performed incorrectly, can harm you. M0304AG 5.5.06 December 2021 T F A R D xiv Chapter 1 CommScope ONECELL overview This chapter contains a high level overview of the ONECELL deployment and the ONECELL components installed in the ONECELL system. Overview CommScope ONECELL system ONECELL hardware components 1-2 1-2 1-3 D R A F T 1-1 ONECELL RP5200 Hardware Installation, Release 5.5 Chapter 1 CommScope ONECELL overview Overview ONECELL is a revolutionary wireless system that can deliver the ultimate in wireless performance. It eliminates cell borders and handovers It can cover a large area with consistent user experience without any significant interference It can take advantage of multiple distributed radio points to deliver a stronger signal on both the downlink and the uplink It can deliver greater capacity through distributed (multi-user and single-user) MIMO and Coordinated Multipoint (CoMP) It has the flexibility to neutralize macro interference in co-channel small cell deployments It can be used to deliver unprecedented levels of capacity to hot spot areas by deploying radio points with overlapping coverage and enabling multi- user MIMO In addition to these important benefits in user experience and data capacity, ONECELL provides superior economics and investment protection, ease of deployment and support for multi-operator deployments. CommScope ONECELL system ONECELL is an in-building, enterprise solution for LTE that provides an in-building consistent signal. It operates as a wireless network with a single cell, called a Baseband Controller, over distributed Radio Points. Network operators benefit from the ONECELL because they reduce the load on their infrastructure. T F A R D 1-2 M0304AG 5.5.06 December 2021 Figure 1-1. ONECELL solution Chapter 1 CommScope ONECELL overview ONECELL hardware components The ONECELL hardware consists of the following components:

Baseband Controller Baseband Controller Chassis Baseband Controller Module Power/Fan Unit (PFU) Radio Points RP2000 series RP5000 series Baseband Controller physical ports The following ports are on the front panel of the Baseband Controller Module. Table 1-1 shows the port assignments. In addition, there is a connector used for the GPS antenna cable. NOTE For more detailed BC port information, see ONECELL Network Planning Guide, v5.5 (M0304AF). ONECELL RP5200 Hardware Installation, Release 5.5 D R A F T 1-3 Chapter 1 CommScope ONECELL overview Table 1-1. Baseband Controller physical port assignments Port Assignment Network Port Speed Media Type Description MGMT 1 Gbps RJ45 Local Management External Interface to access the WebGUI on the Baseband Controller. Not used 1 Gbps Not used IQ Data 1 Gbps Boundary Clock 1 Gbps IPsec 1 Gbps X2 and Redundancy 1 Gbps 1 Gbps RP Management and Timing RJ45 RJ45 Dual Media RJ45 or SFP Dual Media RJ45 or SFP Dual Media RJ45 or SFP Dual Media RJ45 or SFP IQ Data 10 Gbps SFP+

Not used 10 Gbps SFP+

Not used Fronthaul IQ Data Traffic between the Baseband Controller and Radio Points via an Ethernet switch on copper (RJ45) port. Boundary Clock Input of IEEE 1588 PTP Timing signal via dual media port. Backhaul Traffic (S1 and OAM Interfaces) via dual media port. VLAN tags are configurable in Dual IPsec mode to separate different traffic streams on the same port. Fronthaul Traffic for X2 and Redundancy Cluster data via dual media port. Fronthaul Traffic for IEEE 1588 PTP timing and SOAP/XML control data via dual media port. Timing and OAM data traffic between Baseband Controller and Radio Points through an Ethernet switch(s) Fronthaul IQ Data Traffic between the Baseband Controller and Radio Points via Ethernet switch on Fiber (SFP) port. 0 1-6 7 8 9 10 11 12 T F A R D 1-4 M0304AG 5.5.06 December 2021 Figure 1-2. Baseband Controller ports Chapter 1 CommScope ONECELL overview Copper wire ports Fiber optic ports D R A F T 1-5 ONECELL RP5200 Hardware Installation, Release 5.5 Chapter 1 CommScope ONECELL overview T F A R D 1-6 M0304AG 5.5.06 December 2021 Chapter 2 RP5200i installation This chapter describes installing RP5200i Radio Points on ceiling tiles, above ceiling tiles, on poles and in a flown configuration. RP5200i installation overview Ceiling mount 2-2 2-3 D R A F T 2-1 ONECELL RP5200 Hardware Installation, Release 5.5 Chapter 2 RP5200i installation RP5200i installation overview The RP5200i is a Radio Point for indoor ONECELL solutions. NOTE NOTE Once the Radio Point is installed and powered on, it may take up to 20 minutes for the frequency to stabilize and lock. The PRIMARY port is the data and power connection; the SECONDARY port is for power only. For more information, see ONECELL Network Planning Guide, v5.5 (M0304AF). T F A R D 2-2 M0304AG 5.5.06 December 2021 Ceiling mount Chapter 2 RP5200i installation Mounting the Radio Point (RP) above or on the ceiling tile requires the following hardware provided by CommScope:

Radio Point plate and screws 4" octagon box, 1-1/2" deep with 1/2" side cutouts Ceiling plate and screws Red primary port cable Blue secondary port cable Figure 2-1. CommScope ceiling mounting kit D R A F T 2-3 ONECELL RP5200 Hardware Installation, Release 5.5 Chapter 2 RP5200i installation Figure 2-2. Drop rail Drop rail Clamp 2 screws Mounting the Radio Point on the ceiling tile 1 Remove two ceiling tiles from the overhead. T F A R D 2-4 M0304AG 5.5.06 December 2021 Chapter 2 RP5200i installation 2 Place the RP plate on the tile and mark the four holes on the tile. 3 Cut the opening according to the dimensions in the following drawing. Use 4 holes in the plate to mark the panel Ceiling tile opening D R A F T 2-5 ONECELL RP5200 Hardware Installation, Release 5.5 Chapter 2 RP5200i installation 4 Attach the octagon box to the ceiling bracket using a clamp and screw. Clamp Drop ceiling rail Octagon box Screws M0304AG 5.5.06 December 2021 T F A R D 2-6 Chapter 2 RP5200i installation 5 Replace the ceiling tile with the cutout. 6 Install the drop rail/octagon box assembly over the modified tile. D R A F T 2-7 ONECELL RP5200 Hardware Installation, Release 5.5 Chapter 2 RP5200i installation 7 Attach the mounting plate onto the octagon box on the RP side of the tile. 8 Connect the red and blue cable on the octagon mounting plate as shown. 9 Attach base plate to the Radio Point. Ensure the label is facing the entry module M0304AG 5.5.06 December 2021 T F A R D 2-8 10 Connect the red and blue Ethernet cables to the RP as shown below. Chapter 2 RP5200i installation Leave some slack in the cables to avoid stressing the connectors. D R A F T 2-9 ONECELL RP5200 Hardware Installation, Release 5.5 Chapter 2 RP5200i installation 11 Connect the blue and red Ethernet cables from the RP to the connectors on the ceiling plate. T F A R D 2-10 M0304AG 5.5.06 December 2021 Chapter 2 RP5200i installation 12 Attach the RP to the octagon plate. a Align the keyhole opening on the octagon mounting plate with the button on the RP mounting plate. b Insert the RP into the octagon box mounting plate slot and slide until the RP plate meets the tabs on the octagon box plate. c Lift the RP vertically and slide it into the locked position. D R A F T ONECELL RP5200 Hardware Installation, Release 5.5 2-11 Chapter 2 RP5200i installation 13 Replace the ceiling tile next to the Radio Point. T F A R D 2-12 M0304AG 5.5.06 December 2021 Appendix A Safety This appendix contains specifications for CommScope ONECELL, including FCC information and technical data. Radiation Exposure Statement Human exposure limits for ONECELL deployments FCC ID A-2 A-2 A-5 D R A F T A-1 ONECELL RP5200 Hardware Installation, Release 5.5 Chapter A Safety Radiation Exposure Statement Important: Changes or modifications not expressly approved by CommScope LLC could void your authority to operate the equipment. FCC Part 15 NOTE The Baseband Controller RP5200 have been tested and found to comply with the limits for Class A equipment, pursuant to Part 15 of the FCC Rules. This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. For more information, see the publication femtocells and Health at http:// www.femtoforum.org or visit the FCC website at www.fcc.gov. EN55032 WARNING This equipment is compliant with Class A of EN55032. In a residential environment, this equipment may cause radio interference. T F A R D A-2 Human exposure limits for ONECELL deployments The human exposure limits for the ONECELL product is calculated by using the Maximum Permissible Exposure (MPE) method associated with fixed-type transmitter devices at a minimum exposure distance of 20 cm. WARNING This equipment is not suitable for use in locations where children are likely to be present. M0304AG 5.5.06 December 2021 Chapter A Safety Table A-1 includes values for one RP5200 Radio Point and four Radio Points per chassis. Table A-1. RF exposure for ONECELL at maximum power internal antennas for RP5200 Parameter RPM-A5A11-

B66 RPM-A5A11-

B02 RPM-I5A11-

B01 RPM-I5A11-

B03 RPM-I5A11-

B07 24.13 24.23 24.25 24.00 24.70 Transmitter Duty Cycle %

100 100 100 100 100 Tx Power (dBm) per antenna Tx Loss (dB) Tx Antenna Gain (dBi) Number of Antennas

(MIMO) Contribution due to multiple antennas (dB) Bands Point Source Total EIRP

(watts) Power Density (W/m2) @

20 cm Tx Power (dBm) per antenna Tx Loss (dB) Tx Antenna Gain (dBi) 0 4 2 66 0 4 3.0103 3.0103 3.0103 3.0103 3.0103 Derived Total EIRP (dBW) 1.140 1.240 1.260 1.010 1.710 Frequency Range (MHz) 2110-2200 1930-1990 2110-2170 1805-1880 2620-2690 1.300 1.331 1.337 1.262 1.483 2.587 2.647 2.569 2.510 2.950 1. For persons with implants, the maximum calculated distance of 30cm. This applies to any combination of up to four radio modules in Bands 1,3 and 7. 2. For general public and workers, a measured distance of 5mm was determined. This applies to any combination of up to four radio modules in Bands 1,3 and 7. For general public and workers, a calculated distance of 20cm was determined. This applies to any combination of up to four radio modules in Bands 2 and 66. Parameter RPM-I5A11-

B17 RPM-A5A11-

B12 RPM-A5A11-

B14 RPM-A5A11-

B05 RPM-A5A11-

B30 21.70 21.88 21.45 21.58 20.99 0 4 2 2 0 4 0 4 2 1 0 4 0 4 2 7 0 5 0 4 2 3 0 2 ONECELL RP5200 Hardware Installation, Release 5.5 D R A F T A-3 Chapter A Safety Transmitter Duty Cycle %

Number of Antennas

(MIMO) Contribution due to multiple antennas (dB) Point Source Total EIRP

(watts) Power Density (W/m2) @

20 cm Parameter RPM-I5A11-

B17 RPM-A5A11-

B12 RPM-A5A11-

B14 RPM-A5A11-

B05 RPM-A5A11-

B30 100 2 100 2 100 2 3.0103 3.0103 3.0103 3.0103 3.0103 Derived Total EIRP (dBW)

-1.290 Bands

-1.540 14

-3.410 5

-1.000 30 Frequency Range (MHz) 734-746 729 - 746 758 - 768 869-894 2350-2360 100 2 17 0.743 1.478 100 2

-1.110 12 0.775 1.541 0.702 0.456 0.794 1.396 0.907 1.58 Reference documents

[1] Federal Communications Commission Document OET Bulletin 65, Supplement C, 2001, Evaluating Compliance with FCC guidelines for Human Exposure to radio frequency Electromagnetic Fields, US Federal Communications Commission, Office of Engineering and Technology June 2001.

[2] Federal Communications Commission Document OET Bulletin 56, Questions and answers about biological effects and potential hazards of radio frequency electromagnetic fields, Federal Communications Commission Office of Engineering and Technology, August 1999.

[3] ICNIRP Guidelines for limiting exposure to time varying electric, magnetic and electromagnetic fields up to 300 GHz. International Commission on Non Ionizing Radiation, published in Health Physics 74 (4): 494-522; 1998

[4] ICNIRP Statement on EMF-Emitting New Technologies, International Commission on Non-Ionizing Radiation, published in Health Physics 94 (4):376-392, 2008

[5] 3GPP Document 3GPP TS 36.104 version 10.11.0 Release 10, LTE Evolved Universal Terrestrial Radio Access (E-UTRA); Base Station (BS) radio transmission and reception M0304AG 5.5.06 December 2021 T F A R D A-4 Chapter A Safety FCC ID RP5200 The FCC ID is available on the information labels attached to the RP. For the RP5200, the FCC ID for each of the installed radio modules is visible when the cover is removed. The drawing below shows the label on the radio module. D R A F T A-5 ONECELL RP5200 Hardware Installation, Release 5.5 Chapter A Safety T F A R D A-6 M0304AG 5.5.06 December 2021 Appendix B Installation troubleshooting This section contains information on troubleshooting the ONECELL installation. It includes the LED patterns for the Baseband Controller and Radio points. Radio Point RP5200 LED patterns B-2 D R A F T B-1 ONECELL RP5200 Hardware Installation, Release 5.5 Appendix B Installation troubleshooting Radio Point RP5200 LED patterns The Radio Point RP5200 supports six LEDs on the front cover. Indicators are for four radios (one for each) ETH 1 MR PORT:POE++, POE+, Ethernet link ETH 2 SR PORT:POE++, POE+, Ethernet link T F A R D B-2 ETH 1, 2 RADIO 1, 2, 3, 4 The following table shows:

Display pattern for each LED What the pattern indicates M0304AG 5.5.06 December 2021 Appendix B Installation troubleshooting Action to take, if any, to resolve the issue LED Display Pattern Indicates Action to Take RADIO 1 Green, solid Power On, transmitting None RADIO 2 RADIO 3 RADIO 4 Amber, solid Red, solid RFTxState OFF No Controller Assigned No Timing No connection to Controller HW error Low Power Check 1588 VLAN configuration Verify that the Radio Point is in STANDBY because more than 32 RPs are connected Hardware error replace Radio Point Green, blinking Firmware upgrade None Amber, blinking RF module Self-Test Failure Replace Radio Module Eth 1 Green, solid Power On, PoE++ power None Amber, solid Link up, no power Check that the Ethernet cable is connected to the Radio Point Amber, blinking Platform Self-Test Failure Replace Radio Point Red, solid Ethernet port error Connect the Ethernet cable between the Baseband Controller and Radio Point Replace Radio Point Eth 2 Green, solid Power On, PoE++ power None Amber, solid Link up, no power Check that the Ethernet cable is connected to the Radio Point Amber, blinking Platform Self-Test Failure Replace Radio Point Red, solid Ethernet port error Connect the Ethernet cable between the Baseband Controller and Radio Point Replace Radio Point

* Note: When all of the LEDs are solid red, there is an RP hardware failure. ONECELL RP5200 Hardware Installation, Release 5.5 D R A F T B-3 Appendix B Installation troubleshooting T F A R D B-4 M0304AG 5.5.06 December 2021 Appendix C Specifications This appendix contains specifications for CommScope ONECELL, including FCC information and technical data. Environmental and physical specifications SPF/SPF+ specifications C-1 C-2 Environmental and physical specifications The following table lists the electrical ratings and technical data for the RP5200. Table C-1. Environmental and Physical specifications Specification Type Specification Values Environmental Operating Temperatures: 0 to 50C (Plenum rated: UL-2043) Operating Humidity 10%-95% Non-Condensing Operating temperatures: 0C to 50C Active Cooling/Fans, acoustic noise: 39.5 dBA at 25C Power Requirements IEEE802.3bt-type 4 PoE++

Power Consumption Up to: 72W (26W + 11.5W per RM) Dimensions 13.54" W x13.54 H x 3.35" D

(344.0 mm W x 344.0 mm H x 85.0 mm D) Weight 8.82 lbs (4 kg) ONECELL RP5200 Hardware Installation, Release 5.5 D R A F T C-1 Appendix C Specifications SPF/SPF+ specifications The following table lists the SPF and SPF+ specifications required for the Baseband Controller. 1G SFP LC SX Transceiver; 220M to 1K M 1G SFP LC LX transceiver, 550M 10K M 10G SFP+ LC SR Transceiver; Multi mode 26M to 300M SFP-10G-LR Transceiver; Single mode 10KM 10G Direct attach SFP+ cable; Twin ax Cable; 7M (must be compatible with HP & Cisco switches T F A R D C-2 M0304AG 5.5.06 December 2021 Appendix D Field Replaceable Units This appendix contains instructions for replacing Baseband Controller modules and Radio Points in the ONECELL system. FRU overview Replacing RP5200i radio point Replacing RP5200i radio modules D-2 D-2 D-7 D R A F T D-1 ONECELL RP5200 Hardware Installation, Release 5.5 Appendix D Field Replaceable Units FRU overview Field Replaceable Units (FRUs) are modules that can be replaced on-site in case of equipment failure. On-site and off-site activities are required when replacing modules. The off-site activities are achieved by using DMS. This appendix contains details for replacing Radio Modules. Replacing RP5200i radio point The following procedures provide instructions for replacing a ONECELL RP5200i radio point. WARNING Disconnect the Ethernet cable(s) on the RP to remove the power. Failure to do so will cause damage to the RP. 1 Remove the ceiling that is adjacent to the RP. 2 Remove the RP from the ceiling. Slide the RP in the direction of the LEDs. When the RP reaches the end of the key, tilt down to remove. T F A R D D-2 3 Disconnect the Ethernet cables on the RP. M0304AG 5.5.06 December 2021 Appendix D Field Replaceable Units 4 Remove the RP plate from the RP5200i. Set RP5200i aside. 5 Attach the RP plate to the replacement RP5200i. Ensure the label is facing the entry module D R A F T D-3 ONECELL RP5200 Hardware Installation, Release 5.5 Appendix D Field Replaceable Units 6 Connect the red and blue Ethernet cables to the RP as shown below. Leave some slack in the cables to avoid stressing the connectors. T F A R D D-4 M0304AG 5.5.06 December 2021 Appendix D Field Replaceable Units 7 Connect the blue and red Ethernet cables from the RP to the connectors on the ceiling plate. D R A F T D-5 ONECELL RP5200 Hardware Installation, Release 5.5 Appendix D Field Replaceable Units 8 Attach the RP to the octagon plate. a Align the keyhole opening on the octagon mounting plate with the button on the RP mounting plate. b Insert the RP into the octagon box mounting plate slot and slide until the RP plate meets the tabs on the octagon box plate. c Lift the RP vertically and slide it into the locked position. T F A R D D-6 M0304AG 5.5.06 December 2021 Appendix D Field Replaceable Units 9 Replace the ceiling tile next to the Radio Point. 10 Verify the RP5200i installation. The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. Replacing RP5200i radio modules The following procedures provide instructions for replacing a ONECELL Radio Point radio module. WARNING Disconnect the Ethernet cable(s) on the RP to remove the power. Failure to do so will cause damage to the RP. 1 Remove the ceiling that is adjacent to the RP. 2 Remove the RP from the ceiling. Slide the RP in the direction of the LEDs. When the RP reaches the end of the key, tilt down to remove. ONECELL RP5200 Hardware Installation, Release 5.5 D R A F T D-7 Appendix D Field Replaceable Units 3 Disconnect the Ethernet cables on the RP. T F A R D D-8 M0304AG 5.5.06 December 2021 Appendix D Field Replaceable Units 4 Remove the RP cover. 5 Using a Torx T10 screwdriver, loosen the screws on the Radio Module and remove it. D R A F T D-9 ONECELL RP5200 Hardware Installation, Release 5.5 Appendix D Field Replaceable Units 6 Insert the replacement RF module and tighten the screws. 7 Replace the RP cover. T F A R D D-10 M0304AG 5.5.06 December 2021 Appendix D Field Replaceable Units 8 Connect the red and blue Ethernet jumpers into the ceiling plate. D R A F T ONECELL RP5200 Hardware Installation, Release 5.5 D-11 Appendix D Field Replaceable Units 9 Attach the RP to the octagon plate. a Align the keyhole opening on the octagon mounting plate with the button on the RP mounting plate. b Insert the RP into the octagon box mounting plate slot and slide until the RP plate meets the tabs on the octagon box plate. c Lift the RP vertically and slide it into the locked position. T F A R D D-12 M0304AG 5.5.06 December 2021 Appendix D Field Replaceable Units 10 Replace the ceiling tile next to the Radio Point. 11 Verify the RF module installation. The operational state of the RF module can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. D R A F T ONECELL RP5200 Hardware Installation, Release 5.5 D-13 Appendix D Field Replaceable Units T F A R D D-14 M0304AG 5.5.06 December 2021 Appendix E Cable installation and power separation guidelines This section contains best practices for installing Ethernet cables and connecting them to RPs. Overview Cable handling Cable termination Lightning protection Ceiling connector Patch panel Power separation guidelines E-2 E-2 E-3 E-12 E-15 E-17 E-17 D R A F T E-1 ONECELL RP5200 Hardware Installation, Release 5.5 Appendix E Cable installation and power separation guidelines Overview When installing Rugged RPs, cables that can withstand temperature extremes and inclement weather should be used. In outside environments, avoid contamination or damage to plugs. Plugs must be protected from sunlight and water in a suitable equipment housing or NEMA 4 rated box. It is also important to avoid exposure to water at cut ends of unfilled cables and cords. The following information is available to help you extend the operation of your RP and switches. Cable handling Indoor/outdoor cords can be routed outdoors above ground and indoors, and can be ordered in lengths long enough for direct (home-run) installations from switch to end equipment. Cords have 20% Insertion Loss De-rating so only 85 meters total can be supported. Extended lengths can be cut in two for terminating the indoor ends at protectors or panels. Terminations are similar to typical 4-pair indoor cables. Unreel long lengths of cable to ensure the cable does not become twisted or caught on objects. Figure E-1. Unreel cable T F A R D E-2 CommScope recommends using a sock fitted and secured over the plug to pull cable through long conduits. Sock information Tie wrap information M0304AG 5.5.06 December 2021 Appendix E Cable installation and power separation guidelines Figure E-2. Cable with sock attached using tie wrap Sock Conduit Tie-wrap Feed the sock through the conduit and secure the sock on the terminal end of the cable with the tie-wrap. Once the sock and tie-wrap are in place, pull the cable through the conduit. Cable termination Before installing the Rugged RP, terminate the RP end of the Ethernet cable with the RJ45, IP67 connector provided in the box. Figure E-3. RJ45, IP67 connector Flip the plug anti-snag to make it easier to push through the cord grips (flip it back before plugging in). ONECELL RP5200 Hardware Installation, Release 5.5 D R A F T E-3 Appendix E Cable installation and power separation guidelines Use the split grommet provided. Once it is in place, coat it with silicone to ensure the connector is sealed. Figure E-4. Assembling the connector on the RP end Cable splicing Some cables are run in one piece from source to destination and have connector terminations. In other cases, two shorter pieces of cable need to be spliced together. When a cable is run to outdoor devices, you should take measures to ensure that cables are properly protected against moisture entering the cable. This is especially important when the jacket is stripped back from the wires. Some cables are gel filled and the termination includes cleaning the excess gel and blocking the end with silicone sealant to prevent future leakage. A typical blocking method uses a 2 cm length of Alpha Wire PVC-105-2 tubing or equivalent. 1 Fill all space inside the tubing with B-sealant. M0304AG 5.5.06 December 2021 T F A R D E-4 Appendix E Cable installation and power separation guidelines 2 Position the filled tube to overlap the end of the inner jacket and seal the gel. Clean off all excess sealant. NOTE: Tape can be used to stabilize the tube for immediate termination before the sealant sets. Cable termination Shielded cables must be properly terminated, either grounded or isolated. For exposed installations requiring protection, the end of the shield can be bonded in various ways. The following procedure is an example of one method. 1 Make a slit along the length of the jacket. Be careful not to tear the underlying shielding. D R A F T E-5 ONECELL RP5200 Hardware Installation, Release 5.5 Appendix E Cable installation and power separation guidelines 2 Pull back the jacket along the slit and remove. T F A R D E-6 M0304AG 5.5.06 December 2021 Appendix E Cable installation and power separation guidelines 3 Fold back the foil shielding and drain wire to expose the inner jacket. 4 Prepare the inner jacket for blocking the gel and direct burial. a Cut back the inner jacket b Trim the flute c Clean the excess gel NOTE: The flute can be cut longer to match the blocking tube length. D R A F T E-7 ONECELL RP5200 Hardware Installation, Release 5.5 Appendix E Cable installation and power separation guidelines 5 Fill all space inside the tubing with B-sealant and position the filled tube to overlap the end of the inner jacket and seal the gel. 6 Fold the drain wire and foil back over the tube and position the foil to be folded back over the tube. T F A R D E-8 M0304AG 5.5.06 December 2021 Appendix E Cable installation and power separation guidelines 7 An extra piece of foil can be used to cover the foil seam. 8 For an HGS620 termination, wrap the drain wire at least two times around and position it where the spring clips will capture them. 9 Tape over the foil for stability. 10 Trim the wire ends. ONECELL RP5200 Hardware Installation, Release 5.5 D R A F T E-9 Appendix E Cable installation and power separation guidelines Cable grounding For CAT-6A cables, the shield termination method is to use the ground lug and B-

bond clip that are available in the 12A1 Grounding Kit. 1 Fold the foil back over the jacket end and wrap the drain wire around the end and push the ground lug over the wrap. T F A R D E-10 M0304AG 5.5.06 December 2021 Appendix E Cable installation and power separation guidelines 2 Open the B-bonding clip to be placed and closed over the grounding lug. 3 The lug tail can be cut off or used for ground attachment. 4 Treat the inner jacket as described in step 4 on page E-7. ONECELL RP5200 Hardware Installation, Release 5.5 E-11 D R A F T Appendix E Cable installation and power separation guidelines For an isolated shield termination, the 1572A and 1592A outer jacket foil and drain wire are removed a short distance back from the termination and electrical tape is used to isolate the foil end. Lightning protection CommScope recommends including lightning protection in your ONECELL system to isolate equipment from surge damage. Important guidelines Verify hole diameter blocking may need to remain outside the cover Maintain pair twists up to termination points Avoid having pairs crossing over each other Indoor box To protect the cables in an indoor installation from lightning damage, CommScope recommends using the ITW Linx CAT6-A-LAN protector. NOTE The gel filled outdoor cable types will still need blocking. See Cable splicing and Cable termination for instructions on blocking cable. E-12 M0304AG 5.5.06 December 2021 T F A R D Appendix E Cable installation and power separation guidelines Figure E-5. CAT6-A lightning protector Outdoor protection The following is an example of a pole mounted CAT-6A configuration for protecting remote equipment installed outdoors. Table E-1 lists the recommended parts for installing the protection equipment. Table E-1. CAT-6A protection equipment parts list Part Name Link to Part on Distributors Web site NEMA 4x enclosure Allied Moulded fiberglass enclosure Bottom Mounted Liquid Tight Cordgrips Heyco pre-assembled cordgrips Bottom Mounted Liquid Tight Bushing Heyco liquid tight bushings snap-in Allied Moulded back panel Ditek surge protection buss Ditek 110RJC6APOE Protector Allied Moulded pole mount kit Back panel Ground buss Protector Pole mount kit D R A F T ONECELL RP5200 Hardware Installation, Release 5.5 E-13 Appendix E Cable installation and power separation guidelines Figure E-6. Remote equipment protection for outdoor devices Back panel NEMA 4x enclosure Bottom Mounted Liquid Tight Cordgrips Ground Buss Bottom Mounted Liquid Tight Bushing NOTE Enclosure should be mounted close to the equipment for the best protection. T F A R D E-14 M0304AG 5.5.06 December 2021 Appendix E Cable installation and power separation guidelines Figure E-7. Protector box mounted to pole Pole Mount kit Minimize excess cord length D R A F T Ceiling connector If surge protection is not needed, gel flooded cables can be blocked and transitioned to indoor cable using a ceiling connector. The following link is for the recommended CommScope part. Ceiling connector 1 Terminate the indoor cable first then lay down a bed of B sealant. ONECELL RP5200 Hardware Installation, Release 5.5 E-15 Appendix E Cable installation and power separation guidelines 2 Clean all gel from the end of the OSP cable. 3 After the cable and conductors are positioned, fill the area around the cable end with sealant and close the connector housing. T F A R D E-16 M0304AG 5.5.06 December 2021 Appendix E Cable installation and power separation guidelines Patch panel CommScope recommends installing a patch panel in the NOC to connect and manage CAT-6A cables. The following is a list of recommended CommScope 24 and 48 port patch panels and high density information outlets. 760163436_HFTP-HD6B-1U-24 760163444_HFTP-HD6B-2U-48 760163451_HFTPA-HD6B-1U-24 760163469_HFTPA-HD6B-2U-48 760163519_HFTP-J6 760163527_HFTP-J10G For more information, go to CommScope.com or contact your CommScope customer representative. Power separation guidelines For power separation best guidelines, refer to the following standards:

Telecommunications Pathways and Spaces, TIA-569-C Information technology Implementation and operation of customer premises cabling Part 2: Planning and installation, ISO/IEC 14763-2 Information Technology Cabling Installation Part 2: Installation Planning and practices inside buildings, BS EN 50174-2 D R A F T ONECELL RP5200 Hardware Installation, Release 5.5 E-17 Appendix E Cable installation and power separation guidelines T F A R D E-18 M0304AG 5.5.06 December 2021 B ONECELL RP5200 Hardware Installation, Release 5.5 DRAFT ONECELL RP5200 Hardware Installation, Release 5.5 M0304AG 5.5.06 December 2021

ONECELL Hardware Installation Guide Release 5.5 Document Number: M0304AC Document Revision: 5.5.01 Date: July 2021 DRAFT Copyright 2021 CommScope, All rights reserved. THIS DOCUMENT HAS BEEN DEVELOPED BY COMMSCOPE, AND IS INTENDED FOR THE USE OF ITS CUSTOMERS AND CUSTOMER SUPPORT PERSONNEL. THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE. ALL STATEMENTS, INFORMATION, AND RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED. USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS. THE SOFTWARE LICENSE AND LIMITED WARRANTY FOR THE ACCOMPANYING PRODUCT ARE SET FORTH IN THE INFORMATION PACKET THAT SHIPPED WITH THE PRODUCT AND ARE INCORPORATED HEREIN BY REFERENCE. IF YOU ARE UNABLE TO LOCATE THE SOFTWARE LICENSE OR LIMITED WARRANTY, CONTACT YOUR COMMSCOPE SALES REPRESENTATIVE FOR A COPY. T F A R D ii M0304AC 5.5.01 July 2021 Contents Document revision history About this document Audience ....................................................................................................................xiii Purpose.......................................................................................................................xiii What you need to know .............................................................................................xiii Customer documentation ...........................................................................................xiii Conventions ................................................................................................................ xv Notes, cautions, and warnings ................................................................................... xvi PART 1 OVERVIEW AND PREPARATION Chapter 1 CommScope ONECELL overview Overview....................................................................................................................1-2 CommScope ONECELL system................................................................................1-2 ONECELL hardware components .............................................................................1-3 Baseband Controller physical ports.....................................................................1-3 Chapter 2 Preparing to install the ONECELL system Overview....................................................................................................................2-2 Before installing the ONECELL components ...........................................................2-2 Commissioning the ONECELL network ...................................................................2-2 PART 2 ONECELL COMPONENT INSTALLATION Chapter 3 Baseband Controller installation Preparing for Baseband Controller installation..........................................................3-2 Installing the Baseband Controller into a rack...........................................................3-2 Chapter 4 RP5100i installation RP5100i installation overview...................................................................................4-2 Ceiling mount.............................................................................................................4-3 ONECELL Hardware Installation, Release 5.5 D R A F T iii Contents Mounting the Radio Point on the ceiling tile ......................................................4-5 Mounting the Radio Point above the ceiling tile...............................................4-15 Flown mount ............................................................................................................4-22 Flown mount installation...................................................................................4-24 Pole mount ...............................................................................................................4-31 Pole mount installation......................................................................................4-31 Chapter 5 RP5100r installation Chapter 6 RP2000 Installation Rugged Radio Point installation overview ................................................................5-2 Antenna port label ...............................................................................................5-4 Pole mount installation ..............................................................................................5-4 Vertical pole mount .............................................................................................5-5 Wall mount installation ............................................................................................5-10 Indoor Radio Point (RP2000) installation overview..................................................6-2 Ceiling mount.............................................................................................................6-3 Mounting the Radio Point on the ceiling tile ......................................................6-5 Mounting the Radio Point above the ceiling tile...............................................6-13 Flown mount ............................................................................................................6-17 Flown mount installation...................................................................................6-18 Pole mount ...............................................................................................................6-23 Pole mount installation......................................................................................6-23 Chapter 7 RP2100 Installation Rugged Radio Point (RP2100) installation overview................................................7-2 Pole mount installation ..............................................................................................7-4 Vertical pole mount .............................................................................................7-4 Horizontal pole mount.......................................................................................7-10 Wall mount installation ............................................................................................7-17 T F A R D iv PART 3 APPENDICES Appendix A Safety Radiation Exposure Statement.................................................................................. A-2 M0304AC 5.5.01 July 2021 Contents FCC Part 15 ........................................................................................................ A-2 EN55032............................................................................................................. A-2 Human exposure limits for ONECELL deployments ............................................... A-2 Reference documents ......................................................................................... A-5 FCC ID...................................................................................................................... A-6 RP5100 series ..................................................................................................... A-6 RP2000 series ..................................................................................................... A-7 Appendix B Installation troubleshooting Baseband Controller LED patterns ........................................................................... B-2 Radio Point LED patterns ......................................................................................... B-4 RP5100i LED patterns........................................................................................ B-4 RP5100r LED patterns ....................................................................................... B-6 RP2000 series LED patterns............................................................................... B-7 Appendix C Specifications Appendix D Field Replaceable Units Environmental and physical specifications............................................................... C-1 SPF/SPF+ specifications........................................................................................... C-3 FRU overview...........................................................................................................D-2 Replacing Baseband Controller modules..................................................................D-2 Prerequisites .......................................................................................................D-2 Off-site activities ................................................................................................ D-3 On-site activities.................................................................................................D-7 Post-Install Verification .................................................................................... D-11 Replacing Radio Points prerequisites and on-site activities ...................................D-13 Prerequisites .....................................................................................................D-13 On-site activities...............................................................................................D-14 Replacing RP5100 series Radio Points................................................................... D-16 Replacing a ceiling RP5100i (above tile).........................................................D-17 Replacing a flown mounted RP5100i...............................................................D-32 Replacing a pole mounted RP5100i .................................................................D-42 Replacing RP5100i RF modules.............................................................................D-47 Replacing RP2000 series Radio Points................................................................... D-52 Replacing a ceiling Indoor RP (above tile) ......................................................D-52 Replacing a flown mounted Indoor RP ............................................................ D-62 D R A F T ONECELL Hardware Installation, Release 5.5 v Contents Replacing a pole mounted Indoor RP...............................................................D-66 Replacing a vertical pole mounted Rugged RP................................................D-69 Replacing a horizontal pole mounted Rugged RP............................................D-76 Replacing a wall mounted Rugged RP.............................................................D-81 RP post-replacement verification............................................................................ D-85 Appendix E Cable installation and power separation guidelines Overview................................................................................................................... E-2 Cable handling .......................................................................................................... E-2 Cable termination...................................................................................................... E-3 Cable splicing ..................................................................................................... E-4 Cable termination ............................................................................................... E-5 Cable grounding ............................................................................................... E-10 Lightning protection................................................................................................ E-12 Important guidelines......................................................................................... E-12 Indoor box ........................................................................................................ E-12 Outdoor protection ........................................................................................... E-13 Ceiling connector .................................................................................................... E-15 Patch panel .............................................................................................................. E-17 Power separation guidelines ................................................................................... E-17 T F A R D vi M0304AC 5.5.01 July 2021 Contents D R A F T vii ONECELL Hardware Installation, Release 5.5 List of figures Figure 1-1 Figure 1-2 Figure 3-1 Figure 4-1 Figure 4-2 Figure 4-3 Figure 4-4 Figure 5-1 Figure 5-2 Figure 5-3 Figure 5-4 Figure 6-1 Figure 6-2 Figure 6-3 Figure 6-4 Figure E-1 Figure E-2 Figure E-3 Figure E-4 Figure E-5 Figure E-6 Figure E-7 ONECELL solution .........................................................................1-3 Baseband Controller ports ...............................................................1-5 Fan label...........................................................................................3-5 CommScope ceiling mount kit contents ..........................................4-3 Drop rail, system integrator-provided..............................................4-4 CommScope flown mount kit contents..........................................4-23 Mounting bracket kit contents .......................................................4-31 Hardware provided by CommScope................................................5-2 Hardware provided by the systems integrator .................................5-3 RJ45, IP67 connector assembly.......................................................5-4 Antenna port label............................................................................5-4 CommScope ceiling mount kit contents ..........................................6-3 Drop rail, system integrator-provided..............................................6-4 CommScope supplied kit contents.................................................6-17 Mounting bracket kit contents .......................................................6-23 Unreel cable .................................................................................... E-2 Cable with sock attached using tie wrap......................................... E-3 RJ45, IP67 connector...................................................................... E-3 Assembling the connector on the RP end ....................................... E-4 CAT6-A lightning protector ......................................................... E-13 Remote equipment protection for outdoor devices....................... E-14 Protector box mounted to pole...................................................... E-15 D R A F T viii ONECELL Hardware Installation, Release 5.5 List of tables Table 1 Table 2 Table 1-1 Table A-1 Table A-2 Table C-1 Table E-1 Customer documentation ................................................................... xiv Conventions ........................................................................................ xv Baseband Controller physical port assignments.................................1-4 RF exposure for ONECELL at maximum power internal antennas for RP5000 series ....................................................................................A-3 RF exposure for ONECELL at maximum power internal antennas for RP2000 series ....................................................................................A-4 Environmental and Physical specifications....................................... C-1 CAT-6A protection equipment parts list ......................................... E-13 D R A F T ix ONECELL Hardware Installation, Release 5.5 List of tables T F A R D x M0304AC 5.5.01 July 2021 Document revision history The following section lists documentation changes in ONECELL Installation Guide, v5.5 (M0304AC). Revision 5.5.01 (July 8, 2021) Initial document release D R A F T xi ONECELL Hardware Installation, Release 5.5 Document revision history T F A R D xii M0304AC 5.5.01 July 2021 About this document This document provides the procedures for installing and configuring the Baseband Controller and Radio Points. Audience Purpose This document is written for computer hardware installers and administrators, network architects and business planners who are responsible for the planning and design of the CommScope ONECELL deployment environment. This guide provides the information necessary for installing the ONECELL hardware in the operators network. What you need to know The reader should have a basic understanding of:

Data networks LTE technology General telecommunications practices Customer documentation The following table lists available documents in the ONECELL documentation suite. ONECELL Hardware Installation, Release 5.5 D R A F T xiii About this document Table 1. Customer documentation Title Contents ONECELL Installation Guide, v5.5 (M0304AC) Includes detailed installation instructions for Baseband Controller and Radio Points hardware. ONECELL Feature Guide, v5.5

(M0304AE) ONECELL Network Planning Guide, v5.5 (M0304AF) Contains a description of anchor features for the current and previous releases, and a system overview, including CommScope provided components and required components from other vendors. Describes main components of the ONECELL system, high-level view of hardware components, how do you engineer an in-building system, how do you determine Radio Points locations, and how to design in-building systems. Contains best practices for deployment, including when to use clustering, and how to manage capacity. ONECELL RP5200 Installation Guide, v5.5 (M0304AG) Includes detailed installation instructions for Baseband Controller and Radio Points hardware. OM and KPI Reference for ONECELL Devices, v5.5

(M0304AK) Describes the operational measurements and key performance indicators for ONECELL devices. ONECELL Troubleshooting, v5.5

(M0304AJ) Covers common troubleshooting scenarios in deployed devices and troubleshooting methods. ONECELL Administration, v5.5

(M0304AH) Describes how to operate, maintain and manage ONECELL devices using the Baseband Controllers Web UI. ONECELL Device Alarm Reference (M0304AL) Includes ONECELL device alarm information. T F A R D xiv M0304AC 5.5.01 July 2021 About this document Conventions This guide uses the following text conventions, as applicable. Table 2. Conventions Convention Description Syntax symbols

Font usage Bold input font Italic input font Plain output font Italic output font Enclose a required parameter or set of parameters. For example:

>band-class <class>

<class> is a required parameter. Enclose an optional parameter or set of parameters. For example:

>activate image <version> [reboot]

[reboot] is an optional parameter. Separates items on a list of parameters, only one of which can be used. For example:

>channel-included <yes|no>

A valid command is:

>channel-included yes Indicates text that must be entered exactly as shown. For example:

Enter ping 192.23.10.12. Indicates a variable parameter for which you must provide an actual value. For example:

>authentication key <aukey>

<aukey> is a variable parameter. A valid command is:

>authentication key 9782503000 Indicates system output in a command line or system-

generated file. For example:

IP address 192.23.10.12 is alive. Indicates a variable in system output in a command line or system-generated file. For example:

Installation of release <release> is complete. D R A F T xv ONECELL Hardware Installation, Release 5.5 About this document Table 2. Conventions Convention Description blue text Indicates a hypertext link. Plain italic font Bold font Other conventions

Indicates file names, directory paths, book titles, chapter titles, and user accounts. Indicates text that appears on screen exactly as shown, for example, names of screens, names of buttons, items on menus, and items on pull down lists. Indicates graphical user interface (GUI) menu path. For example:

Select Edit > Add Network to open the Add Network screen. Notes, cautions, and warnings NOTE Notes provide additional information about the subject text. CAUTION Cautions indicate that procedures, if performed incorrectly, can cause equipment damage or data loss. WARNING Warnings indicate that procedures, if performed incorrectly, can harm you. M0304AC 5.5.01 July 2021 T F A R D xvi Part I: Overview and preparation Chapter 1 CommScope ONECELL overview Chapter 2 Preparing to install the ONECELL system D R A F T T F A R D Chapter 1 CommScope ONECELL overview This chapter contains a high level overview of the ONECELL deployment and the ONECELL components installed in the ONECELL system. Overview CommScope ONECELL system ONECELL hardware components 1-2 1-2 1-3 D R A F T 1-1 ONECELL Hardware Installation, Release 5.5 Chapter 1 CommScope ONECELL overview Overview ONECELL is a revolutionary wireless system that can deliver the ultimate in wireless performance. It eliminates cell borders and handovers It can cover a large area with consistent user experience without any significant interference It can take advantage of multiple distributed radio points to deliver a stronger signal on both the downlink and the uplink It can deliver greater capacity through distributed (multi-user and single-user) MIMO and Coordinated Multipoint (CoMP) It has the flexibility to neutralize macro interference in co-channel small cell deployments It can be used to deliver unprecedented levels of capacity to hot spot areas by deploying radio points with overlapping coverage and enabling multi- user MIMO In addition to these important benefits in user experience and data capacity, ONECELL provides superior economics and investment protection, ease of deployment and support for multi-operator deployments. CommScope ONECELL system ONECELL is an in-building, enterprise solution for LTE that provides an in-building consistent signal. It operates as a wireless network with a single cell, called a Baseband Controller, over distributed Radio Points. Network operators benefit from the ONECELL because they reduce the load on their infrastructure. T F A R D 1-2 M0304AC 5.5.01 July 2021 Figure 1-1. ONECELL solution Chapter 1 CommScope ONECELL overview ONECELL hardware components The ONECELL hardware consists of the following components:

Baseband Controller Baseband Controller Chassis Baseband Controller Module Power/Fan Unit (PFU) Baseband Controller physical ports The following ports are on the front panel of the Baseband Controller Module. Table 1-1 shows the port assignments. In addition, there is a connector used for the GPS antenna cable. NOTE For more detailed BC port information, see ONECELL Network Planning Guide, v5.5 (M0304AF). ONECELL Hardware Installation, Release 5.5 D R A F T 1-3 Chapter 1 CommScope ONECELL overview Table 1-1. Baseband Controller physical port assignments Port Assignment Network Port Speed Media Type Description MGMT 1 Gbps RJ45 Local Management External Interface to access the WebGUI on the Baseband Controller. Not used 1 Gbps Not used IQ Data 1 Gbps Boundary Clock 1 Gbps IPsec 1 Gbps X2 and Redundancy 1 Gbps 1 Gbps RP Management and Timing RJ45 RJ45 Dual Media RJ45 or SFP Dual Media RJ45 or SFP Dual Media RJ45 or SFP Dual Media RJ45 or SFP IQ Data 10 Gbps SFP+

Not used 10 Gbps SFP+

Not used Fronthaul IQ Data Traffic between the Baseband Controller and Radio Points via an Ethernet switch on copper (RJ45) port. Boundary Clock Input of IEEE 1588 PTP Timing signal via dual media port. Backhaul Traffic (S1 and OAM Interfaces) via dual media port. VLAN tags are configurable in Dual IPsec mode to separate different traffic streams on the same port. Fronthaul Traffic for X2 and Redundancy Cluster data via dual media port. Fronthaul Traffic for IEEE 1588 PTP timing and SOAP/XML control data via dual media port. Timing and OAM data traffic between Baseband Controller and Radio Points through an Ethernet switch(s) Fronthaul IQ Data Traffic between the Baseband Controller and Radio Points via Ethernet switch on Fiber (SFP) port. 0 1-6 7 8 9 10 11 12 T F A R D 1-4 M0304AC 5.5.01 July 2021 Figure 1-2. Baseband Controller ports Chapter 1 CommScope ONECELL overview Copper wire ports Fiber optic ports ONECELL Hardware Installation, Release 5.5 D R A F T 1-5 Chapter 1 CommScope ONECELL overview T F A R D 1-6 M0304AC 5.5.01 July 2021 Chapter 2 Preparing to install the ONECELL system This section has the steps to complete before starting the ONECELL installation. Overview Before installing the ONECELL components 2-2 2-2 D R A F T 2-1 ONECELL Hardware Installation, Release 5.5 Chapter 2 Preparing to install the ONECELL system Overview This document describes the ONECELL installation and includes:

Chapter 3, Baseband Controller installation Chapter 4, RP5100i installation Chapter 5, RP5100r installation Chapter 6, RP2000 Installation Chapter 7, RP2100 Installation Before installing the ONECELL components Before installing the ONECELL components, the system integrator must plan the network for the topology that will be deployed. See OneCell Network Planning Guide

(913023). CommScope recommends that cables and switches be in place before installing the ONECELL components. See Appendix E, Cable installation and power separation guidelines for more information. Commissioning the ONECELL network To bring your ONECELL system up, youll need to commission the system by configuring it. The commissioning procedures are dependent on the site installation. Contact your CommScope representative for your commissioning procedures. T F A R D 2-2 M0304AC 5.5.01 July 2021 Part II: ONECELL component installation Chapter 3 Baseband Controller installation Chapter 4 RP5100i installation Chapter 5 RP5100r installation Chapter 6 RP2000 Installation Chapter 7 RP2100 Installation D R A F T T F A R D Chapter 3 Baseband Controller installation This chapter contains the Baseband Controller installation procedures, including chassis installation into a rack, Baseband Controller Module and Power/Fan Unit installation into the Baseband Controller Chassis and the cables required for a basic installation. Preparing for Baseband Controller installation Installing the Baseband Controller into a rack 3-2 3-2 D R A F T 3-1 ONECELL Hardware Installation, Release 5.5 Chapter 3 Baseband Controller installation Preparing for Baseband Controller installation Open the shipping box. It should have the components for one complete Baseband Controller Module:

Baseband Controller Chassis including four mounting screws Baseband Controller Module Power/Fan Unit (PFU) The Baseband Controller is 1U high. Be sure there is enough room for the Baseband Controller in the rack. NOTE If you are installing a ONECELL system with GPS timing, you will need a coaxial cable with an SMA-type male connector to the Baseband Controller. For information on RF gain requirements, see ONECELL Network Planning Guide, v5.5 (M0304AF). Installing the Baseband Controller into a rack The Baseband Controller can be installed in a 19-inch or 600mm rack. The Baseband Controller Chassis package contains two kits: one with 19-inch brackets and one with 600mm brackets. CAUTION The Baseband Controller, when mounted, must be in the horizontal position. No other orientations are allowed. NOTE The chassis requires four screws to secure it into the rack. 1 Select the 19-inch or 600mm bracket kit according to the size of the rack. Attach the brackets to the Baseband Controller Chassis M0304AC 5.5.01 July 2021 T F A R D 3-2 Chapter 3 Baseband Controller installation 2 Slide the chassis into the rack. 3 Line up the holes in the chassis ears to the holes in the rack. 4 Secure the chassis with the screws. D R A F T 3-3 ONECELL Hardware Installation, Release 5.5 Chapter 3 Baseband Controller installation 5 Carefully slide the BC into the front of the chassis. 6 Secure the BC by tightening the front panel screws. T F A R D 3-4 M0304AC 5.5.01 July 2021 Chapter 3 Baseband Controller installation 7 In the back of the rack, carefully slide the PFU into the back of the chassis. CAUTION The PFU has a fan hazard. A label is affixed to the top of the PFU indicating the hazard. Figure 3-1. Fan label NOTE: The connectors on the PFU should fit easily into the connector on the BC. Do not force the PFU into the chassis. D R A F T 3-5 ONECELL Hardware Installation, Release 5.5 Chapter 3 Baseband Controller installation 8 Secure the PFU by tightening the thumb screws. 9 Connect the power cord to the PFU. T F A R D 3-6 M0304AC 5.5.01 July 2021 Chapter 3 Baseband Controller installation 10 On the Baseband Controller Modules front panel, connect the GPS antenna cable. 11 Connect the Ethernet or fiber optic cable to the appropriate port. D R A F T 3-7 ONECELL Hardware Installation, Release 5.5 Chapter 3 Baseband Controller installation 12 On the back of the Baseband Controller, turn on the power. The LEDs on the front panel will be solid green, when the power is on. If none are on, check your power connection. If the LED pattern is other than all green, see Baseband Controller LED patterns on page B-2. T F A R D 3-8 M0304AC 5.5.01 July 2021 Chapter 4 RP5100i installation This chapter describes installing indoor Radio Points on ceiling tiles, above ceiling tiles, on poles and in a flown configuration. RP5100i installation overview Ceiling mount Flown mount Pole mount 4-2 4-3 4-22 4-31 D R A F T 4-1 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation RP5100i installation overview The RP5100i is the Radio Point for indoor solutions. There are four configurations for installing the RP5100i, which are dependent on the ceiling type. Ceiling mount, on tile Ceiling mount, above tile Flown mount Pole mount Once the Radio Point is installed and powered on, it may take up to 20 minutes for the frequency to stabilize and lock. If the MR port is connected to a switch that does not provide IEEE802.3bt, type-4 PoE power, the SR port can be used to provide power with a PoE++ injector. For more information, see ONECELL Network Planning Guide, v5.5 (M0304AF). NOTE NOTE T F A R D 4-2 M0304AC 5.5.01 July 2021 Ceiling mount Chapter 4 RP5100i installation Mounting the Radio Point (RP) above or on the ceiling tile requires the following hardware provided by CommScope:

Radio Point plate and screws 4" octagon box, 1-1/2" deep with 1/2" side cutouts Clamp and screw Figure 4-1. CommScope ceiling mount kit contents Octagon box Mounting plate for octagon box with 2 screws Mounting plate for RP with 4 screws D R A F T 4-3 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation Mounting the Radio Point (RP) above or on the ceiling tile requires the following hardware provided by the system integrator:

Drop rail Eaton B-line BA50A or equivalent, with a static load capacity of at least 25 lbs without a drop wire, recommended Figure 4-2. Drop rail, system integrator-provided Drop rail Clamp 2 screws T F A R D 4-4 M0304AC 5.5.01 July 2021 Chapter 4 RP5100i installation Mounting the Radio Point on the ceiling tile 1 Remove two ceiling tiles from the overhead. 2 Place the octagon box on the tile and trace the outline. Cut the opening. 3 Drill a 1/2-inch diameter hole for the Ethernet cable pass-through. NOTE: Use a 1-1/2 deep RACO 8125 or equivalent. D R A F T 4-5 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 4 Attach the octagon box to the ceiling bracket using a clamp and screw. 70 mm

(2.7) 138 mm

(5.4) Clamp Drop ceiling rail Octagon box Screws M0304AC 5.5.01 July 2021 T F A R D 4-6 5 Replace the ceiling tile with the cutouts. Chapter 4 RP5100i installation D R A F T 4-7 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 6 Install the drop rail/octagon box assembly over the modified tile. T F A R D 4-8 M0304AC 5.5.01 July 2021 Chapter 4 RP5100i installation 7 Attach the mounting plate onto the octagon box and feed the Ethernet cable through the small hole in the ceiling tile. Ethernet cable Mounting plate D R A F T 4-9 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 8 Attach base plate to the Radio Point. NOTE: Apply thread locking compound to screws prior to installation. 9 Mount the Radio Point on the octagon box plate. Ethernet cable T F A R D 4-10 M0304AC 5.5.01 July 2021 10 Secure Radio Point to the octagon plate. Chapter 4 RP5100i installation D R A F T 4-11 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 11 Remove the cover from the RP. NOTE: The cover is attached to the RP with two lanyards. T F A R D 4-12 M0304AC 5.5.01 July 2021 12 Connect Ethernet cable to the MR port on the Radio Point. Chapter 4 RP5100i installation D R A F T 4-13 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 13 Replace plastic cover on the Radio Point. 14 Replace the ceiling tile next to the Radio Point. T F A R D 4-14 M0304AC 5.5.01 July 2021 Chapter 4 RP5100i installation Mounting the Radio Point above the ceiling tile 1 Remove ceiling tile from the overhead. D R A F T 4-15 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 2 Attach the octagon box to the bracket. NOTE: CommScope recommends an Eaton B-line BA50A adjustable bracket. Clamp Drop rail Octagon box Screw T F A R D 4-16 M0304AC 5.5.01 July 2021 3 Attach the bracket to the mounting plate to the octagon box. Chapter 4 RP5100i installation 4 Attach plate to the Radio Point. NOTE: Apply thread locking compound to screws prior to installation. D R A F T 4-17 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 5 Attach the Radio Point to the octagon box mounting plate. T F A R D 4-18 M0304AC 5.5.01 July 2021 6 Install drop rail above the ceiling tile. Chapter 4 RP5100i installation D R A F T 4-19 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 7 Remove the cover from the RP. NOTE: The cover is attached to the RP with two lanyards. 8 Connect the Ethernet cables to the Radio Point MR port. T F A R D 4-20 M0304AC 5.5.01 July 2021 9 Replace the cover on the Radio Point. Chapter 4 RP5100i installation NOTE: The minimum clearance for cooling is 3 inches. 3 Ceiling tile D R A F T 4-21 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 10 Replace the ceiling tile. Flown mount The Radio Point can be flown mounted on the end of a rod. This configuration is used for building where there are no drop ceilings. Mounting the Radio Point (RP) in the flown configuration requires the following hardware provided by CommScope in the mounting kit:

Radio Point plate and screws 4" octagon box, 1-1/2" deep with 1/2" side cutouts NOTE: Remove the top, middle cutout. Clamp and screw this hardware is not required for the flown mount option T F A R D 4-22 M0304AC 5.5.01 July 2021 Figure 4-3. CommScope flown mount kit contents Chapter 4 RP5100i installation Octagon box Mounting the Radio Point (RP) in the flown configuration requires the following hardware provided by the system integrator:

Mounting plate for RP with 4 screws Mounting plate for octagon box with 2 screws Rod, 3/8-inch threaded Nut Lock nut, nylon Flat washers D R A F T 4-23 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation Flown mount installation 1 Attach the threaded, 3/8-inch rod, cut to the required length, to the ceiling. 2 Install the nut and a flat washer on the rod. 3 Slide the octagon box on the rod and install a flat washer and the nylon lock nut. NOTE: Be sure the bracket is tight between the nuts and there is enough clearance at the end of the rod to attach the bracket to the Radio Point. T F A R D 4-24 M0304AC 5.5.01 July 2021 4 Attach plate to octagon box. Chapter 4 RP5100i installation D R A F T 4-25 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 5 Attach the mounting plate to the Radio Point. T F A R D 4-26 M0304AC 5.5.01 July 2021 6 Attach the Radio Point to the octagon box. Chapter 4 RP5100i installation D R A F T 4-27 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 7 Remove the cover from the RP. NOTE: The cover is attached to the RP with two lanyards. T F A R D 4-28 M0304AC 5.5.01 July 2021 8 Connect the Ethernet cable to the Radio Point MR port. Chapter 4 RP5100i installation D R A F T 4-29 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 9 Attach the plastic cover to the Radio Point. Installation is complete. T F A R D 4-30 M0304AC 5.5.01 July 2021 Pole mount Chapter 4 RP5100i installation The Radio Point can be pole mounted. This configuration is used for building where there are no drop ceilings. Mounting the Radio Point (RP) on a pole requires the following hardware provided by CommScope in the mounting kit:

Mounting bracket Screws Figure 4-4. Mounting bracket kit contents Mounting the Radio Point (RP) on a pole requires the following hardware provided by the system integrator:

Adjustable clamp at least 2 inches larger than the circumference of the pole Pole mount installation 1 Attach the bracket to the Radio point. D R A F T 4-31 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 2 Slide the adjustable clamp through the slots on the Radio Point bracket. 3 Wrap the clamp around the pole and tighten the clamp screw to secure the Radio Point to the pole. T F A R D 4-32 M0304AC 5.5.01 July 2021 Chapter 4 RP5100i installation 4 Remove the cover from the RP. NOTE: The cover is attached to the RP with two lanyards. D R A F T 4-33 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation 5 Connect the Ethernet cable to the Radio Point MR port. T F A R D 4-34 M0304AC 5.5.01 July 2021 6 Replace the plastic cover on the Radio Point. Chapter 4 RP5100i installation D R A F T 4-35 ONECELL Hardware Installation, Release 5.5 Chapter 4 RP5100i installation Installation is complete. T F A R D 4-36 M0304AC 5.5.01 July 2021 Chapter 5 RP5100r installation This chapter describes installing Rugged Radio Points on poles and walls. Rugged Radio Point installation overview Pole mount installation Wall mount installation 5-2 5-4 5-10 D R A F T 5-1 ONECELL Hardware Installation, Release 5.5 Chapter 5 RP5100r installation Rugged Radio Point installation overview The Rugged Radio Point (RP) ships with the following hardware:

Radio Point Mounting plate Mounting bolts (M8 Hex) RJ45, IP67 connector for CAT 6A cables Figure 5-1. Hardware provided by CommScope NOTE An M8 hex wrench is required to install mounting bolts. Mounting the Radio Point (RP) on a pole requires the following hardware provided by the system integrator:

Two U bolts Four nuts ONECELL Hardware Installation, Release 5.5 D R A F T 5-2 Chapter 5 RP5100r installation RJ45, IP67 connector for CAT 5E Ethernet surge protector, as required by local code (for example, DTK-MRJPOEX or DTK-MRJPOES) NOTE If the MR port is connected to a switch that does not provide IEEE802.3bt, type-4 PoE power, the SR port can be used to provide power with a PoE++ injector. In this case, the installer needs to provide a CAT 5E MPN 17-10044 connector (https://

www.conec.com/catalog/en/rj45-stecker-set.html) to connect the RJ45 to the SR port. For more information, see ONECELL Network Planning Guide, v5.5

(M0304AF). Figure 5-2. Hardware provided by the systems integrator T F A R D 5-3 Mounting the Radio Point (RP) on a wall requires the following hardware provided by the system integrator:

Four molly screws capable 50 lb (23 kg) minimum rating NOTE Once the Radio Point is installed and the powered on, it may take up to 20 minutes for the frequency to stabilize and lock. Before connecting the Ethernet cables to the RP, terminate the RP end of the Ethernet cable with the RJ45, IP67 connector. M0304AC 5.5.01 July 2021 Figure 5-3. RJ45, IP67 connector assembly Chapter 5 RP5100r installation Antenna port label In a multi operator deployment, each operator can connect their own antenna for the Bands and slots they intend to use. This feature allows an operator to reserve the Band/Radio module slot on an outdoor RP5100r to be used for or by a Baseband Controller when outdoor RP5100s are deployed in an enterprise with multiple Baseband Controllers (up to 4). The antenna port label shows the antenna ports, internal slot number and supported band. These parameters are configured at the factory. Figure 5-4. Antenna port label Pole mount installation There is vertical orientation for pole mount installations NOTE The minimum pole diameter requirement is 4'' (102mm). ONECELL Hardware Installation, Release 5.5 D R A F T 5-4 Chapter 5 RP5100r installation Vertical pole mount 1 Slide the two U bolt clamps onto the pole and secure the RP mounting plate to the clamps with four nuts. T F A R D 5-5 M0304AC 5.5.01 July 2021 2 Insert two screws into the upper holes on opposite sides of the RP. Chapter 5 RP5100r installation Required orientation is with connectors at the bottom of the RP D R A F T 5-6 ONECELL Hardware Installation, Release 5.5 Chapter 5 RP5100r installation 3 Hang the RP to the mounting bracket using the installed screws. CAUTION Ensure that the RP is oriented correctly with all connectors at the bottom of the RP. Required orientation with connectors at the bottom of the RP T F A R D 5-7 M0304AC 5.5.01 July 2021 Chapter 5 RP5100r installation 4 Align holes at bottom location of bracket. Insert and tighten the bottom screws through the plate hole into both sides of the RP. Be sure that all four screws are tightened. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. D R A F T 5-8 ONECELL Hardware Installation, Release 5.5 Chapter 5 RP5100r installation 5 Connect the antenna cables on the bottom of the RP. 6 Connect the Ethernet cable RJ45 end to the bottom of the RP to the MR port. MR port Ethernet T F A R D 5-9 Antenna cables M0304AC 5.5.01 July 2021 Chapter 5 RP5100r installation Wall mount installation 1 Drill four holes in the wall using the mounting plate to determine the hole locations. Mount the backplate on the wall with four molly screws. T F A R D 5-10 M0304AC 5.5.01 July 2021 Chapter 5 RP5100r installation 2 Insert two screws into the upper holes on opposite sides of the RP as shown in the drawing below. Required orientation is with connectors at the bottom of the RP ONECELL Hardware Installation, Release 5.5 D R A F T 5-11 Chapter 5 RP5100r installation 3 Attach the RP to the mounting plate. Required orientation is with connectors at the bottom of the RP 4 Tighten the top screws on the RP and insert and tighten the bottom screws on the RP. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. T F A R D 5-12 M0304AC 5.5.01 July 2021 Chapter 5 RP5100r installation 5 Insert and tighten the bottom screws through the plate hole into both sides of the RP. D R A F T 5-13 ONECELL Hardware Installation, Release 5.5 Chapter 5 RP5100r installation 6 Connect the antenna cables on the bottom of the RP. 7 Connect the Ethernet cable RJ45 end to the bottom of the RP to the MR port. NOTE: Insert the Ethernet surge protection as required by local code (for example, DTK-MRJPOEX or DTK-MRJPOES). MR Ethernet port T F A R D Antenna cables 5-14 M0304AC 5.5.01 July 2021 Chapter 6 RP2000 Installation This chapter describes installing indoor Radio Points on ceiling tiles, above ceiling tiles, on poles and in a flown configuration. Indoor Radio Point (RP2000) installation overview Ceiling mount Flown mount Pole mount 6-2 6-3 6-17 6-23 D R A F T 6-1 ONECELL Hardware Installation, Release 5.5 Chapter 6 RP2000 Installation Indoor Radio Point (RP2000) installation overview There are four configurations for installing the Radio Point, which are dependent on the ceiling type. Ceiling mount, on tile Ceiling mount, above tile Flown mount Pole mount NOTE Once the Radio Point is installed and the powered on, it may take up to 20 minutes for the frequency to stabilize and lock. T F A R D 6-2 M0304AC 5.5.01 July 2021 Chapter 6 RP2000 Installation Ceiling mount Mounting the Radio Point (RP) above or on the ceiling tile requires the following hardware provided by CommScope:

Radio Point mounting plate and 4 screws Octagon box mounting plate and 2 screws 4" octagon box, 1-1/2" deep with 1/2" side cutouts Clamp with screw - not required for flown mount option Figure 6-1. CommScope ceiling mount kit contents Octagon box Mounting plate for octagon box with 2 screws Clamp with 1 screw Mounting plate for RP with 4 screws D R A F T 6-3 ONECELL Hardware Installation, Release 5.5 Chapter 6 RP2000 Installation Mounting the Radio Point (RP) above or on the ceiling tile requires the following hardware provided by the systems integrator:

Drop rail Eaton B-line BA50 recommended Figure 6-2. Drop rail, system integrator-provided T F A R D 6-4 M0304AC 5.5.01 July 2021 Mounting the Radio Point on the ceiling tile 1 Remove two ceiling tiles from the overhead. Chapter 6 RP2000 Installation 2 Place the octagon box on the tile and trace the outline. Cut the opening. D R A F T 6-5 ONECELL Hardware Installation, Release 5.5 Chapter 6 RP2000 Installation 3 Drill a 1/2-inch diameter hole for the Ethernet cable pass-through. NOTE: Use a 1-1/2 deep RACO 8125 or equivalent. 4 Attach the octagon box to the ceiling bracket using a clamp and screw. NOTE: CommScope recommends the Eaton B-line BA50 bracket. 1/2-inch diameter hole Hole for mounting plate Clamp Drop ceiling rail Octagon box Screw M0304AC 5.5.01 July 2021 T F A R D 6-6 5 Replace the ceiling tile with the cutouts. Chapter 6 RP2000 Installation D R A F T 6-7 ONECELL Hardware Installation, Release 5.5 Chapter 6 RP2000 Installation 6 Install the drop rail assembly over the ceiling tile with the cutouts. T F A R D 6-8 M0304AC 5.5.01 July 2021 7 Attach the mounting plate onto the octagon box. Chapter 6 RP2000 Installation Ethernet cable Mounting plate 8 Attach base plate to the Radio Point. NOTE: Apply thread locking compound to screws prior to installation. D R A F T 6-9 ONECELL Hardware Installation, Release 5.5 Chapter 6 RP2000 Installation 9 Mount the Radio Point to the octagon box plate. 10 Secure the Radio Point. T F A R D 6-10 M0304AC 5.5.01 July 2021 11 Connect the Ethernet cable to the Radio Point. Chapter 6 RP2000 Installation 12 Replace the second ceiling tile. D R A F T 6-11 ONECELL Hardware Installation, Release 5.5 Chapter 6 RP2000 Installation Installation is complete. T F A R D 6-12 M0304AC 5.5.01 July 2021 Mounting the Radio Point above the ceiling tile 1 Remove ceiling tile from the overhead. Chapter 6 RP2000 Installation 2 Attach the octagon box to the bracket. Clamp Drop ceiling rail Octagon box Screw D R A F T 6-13 ONECELL Hardware Installation, Release 5.5 Chapter 6 RP2000 Installation 3 Attach the mounting plate to the Radio Point. NOTE: Apply thread locking compound to screws prior to installation. 4 Attach the Radio Point to the octagon box. T F A R D 6-14 M0304AC 5.5.01 July 2021 5 Install the drop rail assembly to the ceiling tile rail. Chapter 6 RP2000 Installation NOTE: The minimum clearance for cooling is 3 inches. 3 Ceiling tile ONECELL Hardware Installation, Release 5.5 D R A F T 6-15 Chapter 6 RP2000 Installation 6 Connect Ethernet cable to RP. 7 Replace the ceiling tile. T F A R D 6-16 M0304AC 5.5.01 July 2021 Chapter 6 RP2000 Installation Flown mount The Radio Point can be flown mounted on the end of a rod. This configuration is used for buildings where there are no drop ceilings. Mounting the Radio Point (RP) in the flown configuration requires the hardware listed in Indoor Radio Point (RP2000) installation overview on page 6-2 Figure 6-3. CommScope supplied kit contents Mounting the Radio Point (RP) in the flown configuration requires the following hardware provided by the system integrator:

Rod, 3/8-inch threaded 2 flat washers Nut Lock nut, nylon D R A F T 6-17 ONECELL Hardware Installation, Release 5.5 Chapter 6 RP2000 Installation Flown mount installation 1 Attach the threaded, 3/8-inch rod, cut to the required length, to the ceiling. 2 Install the nut and a flat washer on the rod. 3 Slide the octagon box onto the rod and install a flat washer and the nylon lock nut. T F A R D 6-18 M0304AC 5.5.01 July 2021 4 Attach the plate with two screws to the octagon box. Chapter 6 RP2000 Installation 5 Attach the CommScope supplied mounting plate to the Radio Point with four screws. D R A F T 6-19 ONECELL Hardware Installation, Release 5.5 Chapter 6 RP2000 Installation 6 Attach the Radio Point to the octagon box. T F A R D 6-20 M0304AC 5.5.01 July 2021 7 Secure the Radio Point to the octagon box plate. Chapter 6 RP2000 Installation D R A F T 6-21 ONECELL Hardware Installation, Release 5.5 Chapter 6 RP2000 Installation 8 Connect the Ethernet cable to the Radio Point. Installation is complete. T F A R D 6-22 M0304AC 5.5.01 July 2021 Pole mount Chapter 6 RP2000 Installation The Radio Point can be pole mounted. This configuration is used for building where there are no drop ceilings. Mounting the Radio Point (RP) on a pole requires the following hardware provided by CommScope in the mounting kit:

Mounting bracket 4 screws Figure 6-4. Mounting bracket kit contents Mounting the Radio Point (RP) on a pole requires the following hardware provided by the system integrator:

Adjustable clamp at least 2 inches larger than the circumference of the pole Pole mount installation 1 Attach the bracket to the Radio point. Mounting bracket D R A F T 6-23 ONECELL Hardware Installation, Release 5.5 Chapter 6 RP2000 Installation 2 Slide the adjustable clamp through the slots on the Radio Point bracket. 3 Wrap the clamp around the pole and tighten the clamp screw to secure the Radio Point to the pole. 4 Connect the Ethernet cable to the Radio Point. T F A R D 6-24 M0304AC 5.5.01 July 2021 Chapter 6 RP2000 Installation Installation is complete. D R A F T 6-25 ONECELL Hardware Installation, Release 5.5 Chapter 6 RP2000 Installation T F A R D 6-26 M0304AC 5.5.01 July 2021

Chapter 7 RP2100 Installation This chapter describes installing Rugged Radio Points on poles and walls. Rugged Radio Point (RP2100) installation overview Pole mount installation Wall mount installation 7-2 7-4 7-17 D R A F T 7-1 ONECELL Hardware Installation, Release 5.5 Rugged Radio Point (RP2100) installation overview The Rugged Radio Point (RP) ships with the following hardware:

Chapter 7 RP2100 Installation Radio Point Mounting plate Mounting brackets Four tamper-resistant mounting screws (M5) RJ45, IP67 connector Two 4.3-10 antenna couplers NOTE A tamper-resistant T25 Torx bit, 1/4" hex shank, attached to a driver handle, is required to secure the tamper-resistant mounting screws. Mounting the Radio Point (RP) on a pole requires the following hardware provided by the system integrator:

Two adjustable clamps ONECELL Hardware Installation, Release 5.5 D R A F T 7-2 Chapter 7 RP2100 Installation Mounting the Radio Point (RP) on a wall requires the following hardware provided by the system integrator:

Four molly screws capable 50 lb (23 kg) minimum rating Before installing the RP on the pole, terminate the RP end of the Ethernet cable with the RJ45, IP67 connector provided in the box. NOTE Once the Radio Point is installed and the powered on, it may take up to 20 minutes for the frequency to stabilize and lock. T F A R D 7-3 M0304AC 5.5.01 July 2021 Chapter 7 RP2100 Installation Pole mount installation There are two orientations for pole mount installations:

Vertical pole mount Horizontal pole mount NOTE The minimum pole diameter requirement is 4'' (102mm). Vertical pole mount 1 Attach mounting brackets to mounting plate. NOTE: The torque requirement for the bracket mounting screws is 5-6 in-lbs. 2 Slide the adjustable clamp through the slots on each RP mounting bracket on the RP plate. Slide adjustable clamp end through slots ONECELL Hardware Installation, Release 5.5 D R A F T 7-4 Chapter 7 RP2100 Installation 3 Wrap each clamp around the pole and tighten the clamp screw to secure the RP to the pole. T F A R D 7-5 M0304AC 5.5.01 July 2021 Chapter 7 RP2100 Installation 4 Insert two screws into the upper holes on opposite sides of the RP as shown in the drawing below. CAUTION Ensure that the RP is oriented correctly with the two antenna connectors at the top of the RP. Required orientation ONECELL Hardware Installation, Release 5.5 D R A F T 7-6 Chapter 7 RP2100 Installation 5 Hang the RP to the mounting bracket using the installed screws. Align holes at bottom location of bracket. T F A R D 7-7 M0304AC 5.5.01 July 2021 Chapter 7 RP2100 Installation 6 Insert and tighten the bottom screws through the plate hole into both sides of the RP. Be sure that all four screws are tightened. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. D R A F T 7-8 ONECELL Hardware Installation, Release 5.5 Chapter 7 RP2100 Installation 7 Connect the antenna couplers on the top of the RP. NOTE: Check the antenna coupler manufacturers documentation for torque requirements. 8 Connect the Ethernet cable RJ45 end to the bottom of the RP. T F A R D 7-9 M0304AC 5.5.01 July 2021 Chapter 7 RP2100 Installation Horizontal pole mount 1 Attach mounting brackets to mounting plate. NOTE: The torque requirement for the bracket mounting screws is 5-6 in-lbs. T F A R D 7-10 M0304AC 5.5.01 July 2021 Chapter 7 RP2100 Installation 2 Slide the adjustable clamp through the slots on each RP mounting bracket on the RP plate. Slide adjustable clamp end through slots D R A F T 7-11 ONECELL Hardware Installation, Release 5.5 Chapter 7 RP2100 Installation 3 Wrap each clamp around the pole and tighten the clamp screw to secure the RP to the pole. 4 Insert two screws into the upper holes on opposite sides of the RP as shown in the drawing below. T F A R D 7-12 M0304AC 5.5.01 July 2021 Chapter 7 RP2100 Installation CAUTION Ensure that the RP is oriented correctly with the two antenna connectors at the top of the RP. Required orientation ONECELL Hardware Installation, Release 5.5 D R A F T 7-13 Chapter 7 RP2100 Installation 5 Hang the RP to the mounting bracket using the installed screws. Align holes at bottom location of bracket and install two additional screws. T F A R D 7-14 M0304AC 5.5.01 July 2021 Chapter 7 RP2100 Installation 6 Insert and tighten the bottom screws through the plate hole into both sides of the RP. Be sure that all four screws are tightened. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. D R A F T 7-15 ONECELL Hardware Installation, Release 5.5 Chapter 7 RP2100 Installation 7 Connect the antenna couplers on the top of the RP. NOTE: Check the antenna coupler manufacturers documentation for torque requirements. 8 Connect the Ethernet cable RJ45 end to the bottom of the RP. T F A R D 7-16 M0304AC 5.5.01 July 2021 Chapter 7 RP2100 Installation Wall mount installation 1 Drill four holes in the wall using the mounting plate to determine the hole locations. Mount the backplate on the wall with four molly screws. D R A F T 7-17 ONECELL Hardware Installation, Release 5.5 Chapter 7 RP2100 Installation 2 Insert two screws into the upper holes on opposite sides of the RP as shown in the drawing below. Required orientation T F A R D 7-18 M0304AC 5.5.01 July 2021 Chapter 7 RP2100 Installation 3 Attach the RP to the mounting plate. Tighten the top screws on the RP and insert and tighten the bottom screws on the RP. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. D R A F T 7-19 ONECELL Hardware Installation, Release 5.5 Chapter 7 RP2100 Installation 4 Insert and tighten the bottom screws through the plate hole into both sides of the RP. 5 Connect the antenna couplers on the top of the RP. NOTE: Check the antenna coupler manufacturers documentation for torque requirements. 6 Connect the Ethernet cable RJ45 end to the bottom of the RP. T F A R D 7-20 M0304AC 5.5.01 July 2021 Part III: Appendices Appendix A Safety Appendix B Installation troubleshooting Appendix C Specifications Appendix D Field Replaceable Units Appendix E Cable installation and power separation guidelines D R A F T T F A R D Appendix A Safety This appendix contains specifications for CommScope ONECELL, including FCC information and technical data. Radiation Exposure Statement Human exposure limits for ONECELL deployments FCC ID A-2 A-2 A-6 D R A F T A-1 ONECELL Hardware Installation, Release 5.5 Chapter A Safety Radiation Exposure Statement Important: Changes or modifications not expressly approved by CommScope LLC could void your authority to operate the equipment. The Baseband Controller and RP5100 have been tested and found to comply with the limits for Class A equipment, pursuant to Part 15 of the FCC Rules. This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. For more information, see the publication femtocells and Health at http:// www.femtoforum.org or visit the FCC website at www.fcc.gov. FCC Part 15 NOTE EN55032 WARNING This equipment is compliant with Class A of EN55032. In a residential environment, this equipment may cause radio interference. T F A R D A-2 Human exposure limits for ONECELL deployments The human exposure limits for the ONECELL product is calculated by using the Maximum Permissible Exposure (MPE) method associated with fixed-type transmitter devices at a minimum exposure distance of 20 cm. WARNING This equipment is not suitable for use in locations where children are likely to be present. M0304AC 5.5.01 July 2021 Table A-1 includes values for one Radio Point (RP5000 series) and four Radio Points per chassis. Chapter A Safety Table A-1. RF exposure for ONECELL at maximum power internal antennas for RP5000 series Parameter RPM-A5A11-

B66 RPM-A5A11-

B02 RPM-I5A11-

B01 RPM-I5A11-

B03 RPM-I5A11-

B07 24.13 24.23 24.25 24.00 24.70 Tx Power (dBm) per antenna Tx Loss (dB) Tx Antenna Gain (dBi) Number of Antennas

(MIMO) Contribution due to multiple antennas (dB) Bands Point Source Total EIRP

(watts) Power Density (W/m2) @

20 cm Transmitter Duty Cycle %

100 100 100 100 100 3.0103 3.0103 3.0103 3.0103 3.0103 Derived Total EIRP (dBW) 1.140 1.240 1.260 1.010 1.710 Frequency Range (MHz) 2110-2200 1930-1990 2110-2170 1805-1880 2620-2690 1.300 1.331 1.337 1.262 1.483 2.587 2.647 2.569 2.510 2.950 1. For persons with implants, the maximum calculated distance of 30cm. This applies to any combination of up to four radio modules in Bands 1,3 and 7. 2. For general public and workers, a measured distance of 5mm was determined. This applies to any combination of up to four radio modules in Bands 1,3 and 7. For general public and workers, a calculated distance of 20cm was determined. This applies to any combination of up to four radio modules in Bands 2 and 66. Parameter RPM-I5A11-

B17 RPM-A5A11-

B12 RPM-A5A11-

B14 RPM-A5A11-

B05 RPM-A5A11-

B30 21.70 21.88 21.45 21.58 20.99 0 4 2 66 0 4 Tx Power (dBm) per antenna Tx Loss (dB) Tx Antenna Gain (dBi) ONECELL Hardware Installation, Release 5.5 0 4 2 2 0 4 0 4 2 3 0 2 0 4 2 7 0 5 0 4 2 1 0 4 D R A F T A-3 100 2

-1.110 12 0.775 1.541 21 0 5 2 100 Parameter RPM-I5A11-

B17 RPM-A5A11-

B12 RPM-A5A11-

B14 RPM-A5A11-

B05 RPM-A5A11-

B30 100 2 100 2 100 2 3.0103 3.0103 3.0103 3.0103 3.0103 Derived Total EIRP (dBW)

-1.290 Bands

-1.540 14

-3.410 5

-1.000 30 Frequency Range (MHz) 734-746 729 - 746 758 - 768 869-894 2350-2360 Chapter A Safety Transmitter Duty Cycle %

Number of Antennas

(MIMO) Contribution due to multiple antennas (dB) Point Source Total EIRP

(watts) Power Density (W/m2) @

20 cm 100 2 12 0.743 1.478 0.702 0.456 0.794 1.396 0.907 1.58 Table A-2 includes values for one Radio Point (RP2000 and RP2100) and four Radio Points per chassis. Table A-2. RF exposure for ONECELL at maximum power internal antennas for RP2000 series Parameter Indoor RP-A2014 & RP-I2014 Rugged RP-A2114 & RP-I2114 21 0 11.8 100 2 21 0 12 100 2 21 0 12.5 100 2 Tx Power (dBm) per antenna 21 Tx Loss (dB) Tx Antenna Gain (dBi) Transmitter Duty Cycle %

100 Number of Antennas (MIMO) Contribution due to multiple antennas (dB) 0 0 2 T F A R D A-4 3.0103 3.0103 3.0103 3.0103 3.0103 3.0103 Derived Total EIRP (dBW)

-5.990

-0.990 5.810 6.010 6.510 Bands 12,13,17 1,2,3,4,7,10,25 12,13,17 3 1,2,4,10,25 Frequency Range (MHz) 729-756 1805-2690 729-756 1805-1880 1930-2170 Point Source Total EIRP (watts) 0.252 0.796 3.811 3.991 4.477 M0304AC 5.5.01 July 2021 21 0 13.5 100 2 7.510 2620-

2690 2620-

2690 5.637 Chapter A Safety Table A-2. RF exposure for ONECELL at maximum power internal antennas for RP2000 series (continued) Parameter Indoor RP-A2014 & RP-I2014 Rugged RP-A2114 & RP-I2114 Power Density (W/m2) @ 20 cm 0.501 1.584 7.582 7.939 8.908 11.214 Reference documents

[1] Federal Communications Commission Document OET Bulletin 65, Supplement C, 2001, Evaluating Compliance with FCC guidelines for Human Exposure to radio frequency Electromagnetic Fields, US Federal Communications Commission, Office of Engineering and Technology June 2001.

[2] Federal Communications Commission Document OET Bulletin 56, Questions and answers about biological effects and potential hazards of radio frequency electromagnetic fields, Federal Communications Commission Office of Engineering and Technology, August 1999.

[3] ICNIRP Guidelines for limiting exposure to time varying electric, magnetic and electromagnetic fields up to 300 GHz. International Commission on Non Ionizing Radiation, published in Health Physics 74 (4): 494-522; 1998

[4] ICNIRP Statement on EMF-Emitting New Technologies, International Commission on Non-Ionizing Radiation, published in Health Physics 94 (4):376-392, 2008

[5] 3GPP Document 3GPP TS 36.104 version 10.11.0 Release 10, LTE Evolved Universal Terrestrial Radio Access (E-UTRA); Base Station (BS) radio transmission and reception D R A F T A-5 ONECELL Hardware Installation, Release 5.5 Chapter A Safety FCC ID The FCC ID is available on the information labels attached to the RPs. RP5100 series For the RP5100i, the FCC ID for each of the installed radio modules is visible when the cover is removed. The drawing below shows the label on the radio module. T F A R D A-6 The RP5100r FCC ID is on the label located on the side of device as shown in the drawing below. M0304AC 5.5.01 July 2021 Chapter A Safety FCC ID label RP2000 series The RP2000 FCC ID is on the label located on the back of the device as shown in the drawing below. FCC ID label D R A F T A-7 ONECELL Hardware Installation, Release 5.5 Chapter A Safety The RP2100 FCC ID is on the label located on the side of the device as shown in the drawing below. FCC ID label T F A R D A-8 M0304AC 5.5.01 July 2021 Appendix B Installation troubleshooting This section contains information on troubleshooting the ONECELL installation. It includes the LED patterns for the Baseband Controller and Radio points. Baseband Controller LED patterns Radio Point LED patterns B-2 B-4 D R A F T B-1 ONECELL Hardware Installation, Release 5.5 Appendix B Installation troubleshooting Baseband Controller LED patterns The Baseband Controller has four LEDs on the front panel. The following table shows Display pattern for each LED What the pattern indicates Action to take, if any, to resolve the issue LED Display Pattern Indicates Action to Take STATUS Green, solid None Power On Sectors up RP ERROR Green, solid Power On None Amber, solid Self-test failure Replace Baseband Controller Green, blinking Firmware upgrade from DMS None Sectors not up Amber, blinking No configuration from DMS Check DMS availability Check if the provisioning is correct Escalate to operator OFF BC rebooting after upgrade None Red, solid*

Error in system - software or hardware issues detected Replace Baseband Controller Module Amber, solid Self-test failure Replace Baseband Controller Amber, blinking No Radio Points connected Check RP cable Off Radio Points connected, firmware upgrade from DMS None Red, blinking Check 1588 VLAN configuration Radio Point alarm - PLL state unlock; service impacting alarm from Radio Point (alarm in one or more RP) M0304AC 5.5.01 July 2021 T F A R D B-2 Appendix B Installation troubleshooting LED Display Pattern Indicates Action to Take TIMING LED Green, solid Power On, timing None Amber, solid Self-test failure Replace Baseband Controller Amber, blinking No timing Check GPS antenna connection feed Off Firmware upgrade from DMS None Red, solid*

Error in system Replace Baseband Controller Module CORE LED Green, solid Power On None GPS module down Software/Hardware issues Connection to MME Amber, solid Self-test failure Replace Baseband Controller Amber, blinking No connection to MME IPsec is up Check the MME configuration on the BC Check if MME is reachable Off Firmware upgrade from DMS None Red, blinking Internet connection IPsec down Check if Security Gateway is reachable Check security credentials Red, solid*

No Internet Replace Baseband Controller Module Interface hardware issues

* Note: When all of the LEDs are solid red, there is a BC hardware failure. D R A F T B-3 ONECELL Hardware Installation, Release 5.5 Appendix B Installation troubleshooting Radio Point LED patterns This section contains LED patterns for RP5100 series and RP2000 series. RP5100i LED patterns The Radio Point RP5100i supports six LEDs on the front cover. Indicators are for four radios (one for each) ETH 1 MR PORT:POE++, POE+, Ethernet link ETH 2 SR PORT:POE++, POE+, Ethernet link T F A R D B-4 ETH 1, 2 RADIO 1, 2, 3, 4 M0304AC 5.5.01 July 2021 Appendix B Installation troubleshooting The following table shows:

Display pattern for each LED What the pattern indicates Action to take, if any, to resolve the issue LED Display Pattern Indicates Action to Take RADIO 1 Green, solid Power On, transmitting None RADIO 2 RADIO 3 RADIO 4 Amber, solid Red, solid RFTxState OFF No Controller Assigned No Timing No connection to Controller HW error Low Power Check 1588 VLAN configuration Verify that the Radio Point is in STANDBY because more than 32 RPs are connected Hardware error replace Radio Point Green, blinking Firmware upgrade None Amber, blinking RF module Self-Test Failure Replace Radio Module Eth 1 Green, solid Power On, PoE++ power None Amber, solid Link up, no power Check that the Ethernet cable is connected to the Radio Point Green, blinking PoE+ power None Amber, blinking Platform Self-Test Failure Replace Radio Point Red, solid Ethernet port error Connect the Ethernet cable between the Baseband Controller and Radio Point Replace Radio Point Eth 2 Green, solid Power On, PoE++ power None Amber, solid Link up, no power Check that the Ethernet cable is connected to the Radio Point Green, blinking PoE+ power None Amber, blinking Platform Self-Test Failure Replace Radio Point Red, solid Ethernet port error Connect the Ethernet cable between the Baseband Controller and Radio Point Replace Radio Point

* Note: When all of the LEDs are solid red, there is an RP hardware failure. ONECELL Hardware Installation, Release 5.5 D R A F T B-5 Appendix B Installation troubleshooting RP5100r LED patterns The Radio Point RP5100r has one LED. The following table includes the LED patterns. LED Display Pattern Indicates Green, blinking Not all available radio modules are in use RFTx ON for all radio modules Action to Take No action required All available radio modules are in use RFTx ON for all radio modules No action required Replace Radio Point Error in the system. No module connected to the BC All modules have low power No modules in use Note: The radio modules may be connected to the BC. Check the connection between the RP and BC. Check that the BC admin status is UP. Green, fast blinking Software upgrade No action required Green, solid Red, solid Red, blinking T F A R D B-6 M0304AC 5.5.01 July 2021 Appendix B Installation troubleshooting RP2000 series LED patterns The RP2000 and RP2100 Radio Points have one LED. The LED for the RP2000

(Indoor) is on the front cover. The LED for the RP2100 (Rugged) is on the bottom of the Radio Point where the Ethernet cable port is located. The following table shows:

Display pattern for each LED What the pattern indicates Action to take, if any, to resolve the issue LED Display Pattern Indicates Action to Take STATUS Green, solid Power On RFTx state is ON Amber, solid Self-test failure None Replace RP None Green, blinking Amber, blinking Firmware upgrade Connected to Baseband Controller PLL state unlock RFTx state OFF or suspended L2 path verification failed Admin state STANDBY Check 1588 VLAN configuration Verify RP is in STANDBY because more than 32 Radio Points are connected to the same Baseband Controller Red, blinking No connection to Baseband Controller

(http) Connect the Ethernet cable between the Baseband Controller and Radio Point Replace RP Red, solid Error in system software or hardware issues Interface issues detected AdminState UNLOCKED Connect the Ethernet cable between the Baseband Controller and Radio Point Upgrade Radio Point Replace Radio Point D R A F T B-7 ONECELL Hardware Installation, Release 5.5 Appendix B Installation troubleshooting T F A R D B-8 M0304AC 5.5.01 July 2021 Appendix C Specifications This appendix contains specifications for CommScope ONECELL, including FCC information and technical data. Environmental and physical specifications SPF/SPF+ specifications C-1 C-3 Environmental and physical specifications The following table lists the electrical ratings and technical data for the Baseband Controller, RP5100 series and RP2000/RP2100. Table C-1. Environmental and Physical specifications Baseband Controller Environmental Operating Temperatures: 0C to 40C Operating Humidity 10%-90% Non-Condensing Power Requirements 120/230 VAC,1.7/0.85 A, 50/60 Hz Power Consumption 204W Typical / 216W Maximum Dimensions 1 Rack Unit Chassis hosts 2 Baseband Controller module units 19" W x 1.75" H x 18.8" D (483mm W x 44.4mm H x 477mm D) Weight RP5100i Single BC 13.1 lbs (5.9 kg) Dual BC 19.1 lbs. (8.7 kg) D R A F T C-1 ONECELL Hardware Installation, Release 5.5 Appendix C Specifications Table C-1. Environmental and Physical specifications (continued) Environmental Operating Temperatures: 0 to 50C (Plenum rated: UL-2043) Operating Humidity 10%-95% Non-Condensing Operating temperatures: 0C to 50C Active Cooling/Fans, acoustic noise: 39.5 dBA at 25C Power Requirements IEEE802.3bt-type 4 PoE++

Power Consumption Up to: 72W (26W + 11.5W per RM) 13.54" W x13.54 H x 3.35" D

(344.0 mm W x 344.0 mm H x 85.0 mm D) 8.82 lbs (4 kg) Environmental Operating Temperatures: 0 to 50C (Plenum rated: UL-2043) Operating Humidity 10%-95% Non-Condensing Operating temperatures: 0C to 50C Active Cooling/Fans, acoustic noise: 39.5 dBA at 25C Power Requirements IEEE802.3bt-type4 PoE++

Power Consumption Up to: 72W (26W + 11.5W per RM) Dimensions 14.9" W x 12.64" H x 4.06" D

(378.7 mm W x 321.1 mm H x 102.5 mm D) 21.7 lbs (9.85 kg) Environmental Operating Temperatures:0C to 50C (Plenum rated: UL-2043) Operating Humidity: 10%-95% Non-Condensing Power Requirements 802.3at PoE+

Power Consumption 22W Typical / 25.5W Maximum Dimensions 7.4" W x 9.25" H x 1.75" D

(188mm W x 235mm H x 45mm D) 2.6 lbs (1.2 kg) Environmental Operating Temperatures: -40C to 60C Power Requirements 802.3at PoE+

Power Consumption 22W Typical / 25.5W Maximum Dimensions Weight RP5100r Weight RP2000 Weight RP2100 M0304AC 5.5.01 July 2021 T F A R D C-2 Appendix C Specifications Table C-1. Environmental and Physical specifications (continued) Dimensions 9.3" W x 9.1" H x 3.0" D

(236mm W x 230mm H x 76mm D) Weight 8 lbs (0.6 kg) SPF/SPF+ specifications The following table lists the SPF and SPF+ specifications required for the Baseband Controller. 1G SFP LC SX Transceiver; 220M to 1K M 1G SFP LC LX transceiver, 550M 10K M 10G SFP+ LC SR Transceiver; Multi mode 26M to 300M SFP-10G-LR Transceiver; Single mode 10KM 10G Direct attach SFP+ cable; Twin ax Cable; 7M (must be compatible with HP & Cisco switches D R A F T C-3 ONECELL Hardware Installation, Release 5.5 Appendix C Specifications T F A R D C-4 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units This appendix contains instructions for replacing Baseband Controller modules and Radio Points in the ONECELL system. FRU overview Replacing Baseband Controller modules Replacing RP5100 series Radio Points Replacing RP5100i RF modules Replacing RP2000 series Radio Points RP post-replacement verification D-2 D-2 D-16 D-47 D-52 D-85 D R A F T D-1 ONECELL Hardware Installation, Release 5.5 Appendix D Field Replaceable Units FRU overview Field Replaceable Units (FRUs) are modules that can be replaced on-site in case of equipment failure. On-site and off-site activities are required when replacing modules. The off-site activities are achieved by using DMS. This appendix contains details for replacing Baseband Controller (BC) modules and Radio Points (RP). Replacing Baseband Controller modules The following procedure provides instructions for replacing the ONECELL Baseband Controller (BC) module in a live network environment. This procedure is divided into four sections:

Prerequisites Off-site activities On-site activities Post-Install Verification Prerequisites The following table contains a checklist of prerequisites for replacing a BC. Step Prerequisite Completed 1 2 3 4 5 6 UDEF file for DMS import SSH password Replacement ONECELL BC module Laptop for Web GUI access Config.tar file containing operator information Note: This file should be saved on the Laptop that will be used for WebGUI access. License file (if applicable) Note: This file should be saved on the Laptop that will be used for WebGUI access. M0304AC 5.5.01 July 2021 T F A R D D-2 Appendix D Field Replaceable Units Step Prerequisite Completed 7 8 9 Configuration details for WebGUI commissioning Note: These parameters are derived from the failed unit being replaced. Ethernet cable Note: Required for connecting the laptop to the ONECELL Baseband Controller Management port DMS FTP IP address Off-site activities Before replacing the BC module, import a new EDF file to the DMS. This file contains the BC MAC address and HeMs password specific to the new BC. 1 Access the FTP location on DMS using ftp protocol, port 2100. 2 Upload the EDF file to /appdata/dms/import/factory. 3 Access the DMS Network console from a supported Web Browser. NOTE: The DMS GUI supports Microsoft Edge 81 and later, Google Chrome 81 and later, and Mozilla Firefox Quantum 68 and later. 4 Enter the IP address for the Network Management portal. http://<IP Address DMS server>/networkconsole The Sign In dialog box displays. D R A F T D-3 5 Enter Username and Password. The Search Device screen displays. ONECELL Hardware Installation, Release 5.5 Appendix D Field Replaceable Units 6 Enter the device Mac ID. The Network Management Portal opens. 7 Select Import tab located in the left margin of the Device console. 8 Select File Import. 9 Browse and select the desired import file. The EDF file format is xml. T F A R D D-4 10 Click Import. 11 Click Import Progress. Wait for the import to be completed. M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 12 Click the Operational History icon in the upper right corner of the page. The Operational History page displays. Check that the file import was successful. 13 Login to the Device console. ONECELL Hardware Installation, Release 5.5 D R A F T D-5 Appendix D Field Replaceable Units 14 Enter the MAC ID of the replacement Baseband Controller. NOTE: Your CommScope service engineer will provide the new BC MAC ID. 15 Select the Device configuration tab on the left margin. 16 Configure the same parameters from the BC being replaced. M0304AC 5.5.01 July 2021 T F A R D D-6 Appendix D Field Replaceable Units 17 Select the Dashboard menu item. The Controller will display "Out of Service" until the On-site installation is completed. On-site activities After the off-site activities are complete, you are ready to replace the BC module on-

site. 1 Power off the ONECELL Baseband Controller. ONECELL Hardware Installation, Release 5.5 D R A F T D-7 Appendix D Field Replaceable Units 2 Make a note of the existing cables connected to the failed ONECELL BC. 3 Label the cables identifying the port locations on the BC. Disconnect the cables. T F A R D D-8 4 Remove the GPS antenna cable from the BC (if applicable). M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 5 Turn the mounting screws on the BC front panel counterclockwise to loosen them and remove the BC module. 6 Insert the new BC module into the chassis and tighten the mounting screws. ONECELL Hardware Installation, Release 5.5 D R A F T D-9 Appendix D Field Replaceable Units 7 Re-connect the cables as noted in step 3. T F A R D D-10 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 8 Power on the controller. 9 Configure the BC. Post-Install Verification On-site The operational state of the ONECELL system can be determined by the LED status on the BCs front panel. Additional information can be attained from the WebGUI status screens. Off-site 1 Open a supported Web browser. NOTE: The DMS GUI supports Microsoft Edge 81 and later, Google Chrome 81 and later, and Mozilla Firefox Quantum 68 and later. 2 Enter the IP address for the Device Management portal. http://<IP Address DMS server>/deviceconsole The Sign In dialog box displays. D R A F T ONECELL Hardware Installation, Release 5.5 D-11 Appendix D Field Replaceable Units 3 Enter Username and Password. The Search Device screen displays. T F A R D 4 Enter the MAC ID of the new BC. The BC Dashboard displays. The Summary at the top of the page should show Ready. D-12 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units NOTE: Provision the remaining Device configurations to align with the failed BC configuration on the DMS Device Configuration page. 5 Scroll to the bottom of the page to view the Device PnP status. If all of the PnP boxes have green checks, the BC replacement is successful. Stop here. If one or more of the PnP boxes are red, those activities failed. Go to the Device PnP page to identify the failed activity. Replacing Radio Points prerequisites and on-site activities Prepare the network for the Radio Point replacement. Prerequisites On-site activities Prerequisites The following table contains a checklist of prerequisites for replacing an RP. Prerequisite SSH password Replacement ONECELL RP module D R A F T ONECELL Hardware Installation, Release 5.5 D-13 Appendix D Field Replaceable Units Prerequisite Laptop for Web GUI access Ethernet cable Note: Required for connecting the laptop to the ONECELL Baseband Controller Management port On-site activities Before replacing the RP, delete the RP from the system using the WebGUI. 1 Connect the Ethernet cable to the MGMT port on the BCs front panel. 2 Open a supported browser. 3 Enter the IP address for the GUI, using the format below. https://<IP address of Management Interface>:6002 Example:

https://192.168.8.1:6002 The Sign In dialog box appears. T F A R D D-14 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units The Dashboard displays. D R A F T ONECELL Hardware Installation, Release 5.5 D-15 Appendix D Field Replaceable Units 4 On the Dashboard, click the Radio Points link. The Radio Points Dashboard displays. 5 Click the RP Information tab. T F A R D 6 If one of the Radio Points is Down, select that RP by checking the box next to it. 7 Click Delete. 8 Check the Radio Point Information table to ensure the RP is deleted. Replacing RP5100 series Radio Points The following procedures provide instructions for replacing a ONECELL Radio Point

(RP) module in a live network environment. Replacing a ceiling RP5100i (above tile) Replacing a flown mounted RP5100i D-16 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units Replacing a pole mounted RP5100i RP post-replacement verification Replacing a ceiling RP5100i (above tile) 1 Remove the ceiling tile next to the mounted RP to allow access to the mounting hardware and Ethernet cable. 2 Remove the RP cover. D R A F T ONECELL Hardware Installation, Release 5.5 D-17 Appendix D Field Replaceable Units T F A R D D-18 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 3 Disconnect the Ethernet cable. D R A F T ONECELL Hardware Installation, Release 5.5 D-19 Appendix D Field Replaceable Units 4 Replace the cover and twist the RP clockwise to remove it. Set the failed RP aside. T F A R D D-20 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 5 Attach the mounting plate to the replacement RP. NOTE: Apply thread locking compound to the screws prior to installation. D R A F T ONECELL Hardware Installation, Release 5.5 D-21 Appendix D Field Replaceable Units 6 Attach the RP to the octagonal mounting plate and twist to engage. T F A R D D-22 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 7 Remove the cover and connect the Ethernet cable to the MR port. NOTE: The cover is attached to the RP with two lanyards. D R A F T ONECELL Hardware Installation, Release 5.5 D-23 Appendix D Field Replaceable Units 8 Attach the plastic cover to the RP. 9 Replace the ceiling tile. T F A R D D-24 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 10 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing a ceiling Indoor RP (on tile) 1 Remove the RP cover. NOTE: The cover is attached to the RP with two lanyards. D R A F T ONECELL Hardware Installation, Release 5.5 D-25 Appendix D Field Replaceable Units 2 Disconnect the Ethernet cable from the RP. T F A R D D-26 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 3 Replace the cover and twist the RP clockwise and remove the failed RP. D R A F T ONECELL Hardware Installation, Release 5.5 D-27 Appendix D Field Replaceable Units 4 Attach the plate to the replacement RP. NOTE: Apply thread locking compound to the screws prior to installation. T F A R D D-28 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 5 Attach the RP to the octagonal mounting plate. 6 Secure the RP to the plate by twisting the RP counterclockwise. D R A F T ONECELL Hardware Installation, Release 5.5 D-29 Appendix D Field Replaceable Units 7 Remove the cover and connect the Ethernet cable to the MR port. NOTE: The cover is attached to the RP with two lanyards. T F A R D D-30 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 8 Attach the plastic cover to the Radio Point. 9 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. D R A F T ONECELL Hardware Installation, Release 5.5 D-31 Appendix D Field Replaceable Units Replacing a flown mounted RP5100i 1 Remove the RP cover. NOTE: The cover is attached to the RP with two lanyards. T F A R D D-32 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 2 Disconnect the Ethernet cable. D R A F T ONECELL Hardware Installation, Release 5.5 D-33 Appendix D Field Replaceable Units 3 Replace the cover and twist the RP clockwise. T F A R D D-34 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 4 Remove the failed RP. D R A F T ONECELL Hardware Installation, Release 5.5 D-35 Appendix D Field Replaceable Units 5 Attach the mounting plate to the RP. NOTE: Apply thread locking compound to the screws prior to installation. T F A R D D-36 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 6 Attach the RP to the octagon box. D R A F T ONECELL Hardware Installation, Release 5.5 D-37 Appendix D Field Replaceable Units 7 Twist the RP counterclockwise. T F A R D D-38 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 8 Remove the RP cover. NOTE: The cover is attached to the RP with two lanyards. D R A F T ONECELL Hardware Installation, Release 5.5 D-39 Appendix D Field Replaceable Units 9 Connect the Ethernet cable to the MR port. T F A R D D-40 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 10 Replace the RP cover. 11 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. D R A F T ONECELL Hardware Installation, Release 5.5 D-41 Appendix D Field Replaceable Units Replacing a pole mounted RP5100i 1 Remove the RP cover. NOTE: The cover is attached to the RP with two lanyards. T F A R D D-42 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 2 Disconnect the Ethernet cable. D R A F T ONECELL Hardware Installation, Release 5.5 D-43 Appendix D Field Replaceable Units 3 Loosen the clamp and remove the RP. 4 Attach the bracket to the replacement RP. T F A R D D-44 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 5 Attach the replacement RP to the pole using the clamp. D R A F T ONECELL Hardware Installation, Release 5.5 D-45 Appendix D Field Replaceable Units 6 Remove the cover and connect the Ethernet cable to the RP. NOTE: The cover is attached to the RP with two lanyards. T F A R D D-46 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 7 Replace the cover on the RP. 8 Verify the RP installation. The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing RP5100i RF modules The following procedures provide instructions for replacing a ONECELL Radio Point RF module. WARNING Disconnect the Ethernet cable(s) on the RP to remove the power. Failure to do so will cause damage to the RP. ONECELL Hardware Installation, Release 5.5 D-47 D R A F T Appendix D Field Replaceable Units 1 Remove the RP cover. 2 Disconnect the Ethernet cable on the RP. T F A R D 3 Unscrew the RF module. D-48 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 4 Remove the RF module. D R A F T 5 Install the replacement RF module. ONECELL Hardware Installation, Release 5.5 D-49 Appendix D Field Replaceable Units 6 Secure it in the slot. 7 Connect the Ethernet cable. T F A R D D-50 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units D R A F T ONECELL Hardware Installation, Release 5.5 D-51 Appendix D Field Replaceable Units 8 Attach the RP cover. 9 Verify the RF module installation. The operational state of the RF module can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing RP2000 series Radio Points This procedure provides instructions for replacing a ONECELL RP2000 series Radio Point in a live network environment. Replacing a ceiling Indoor RP (above tile) 1 Remove the ceiling tile below the mounted RP to allow access to the mounting hardware and Ethernet cable. T F A R D D-52 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 2 Loosen the locking screw. NOTE: The locking screw is not on newer RP2000s. 3 Disconnect the Ethernet cable. ONECELL Hardware Installation, Release 5.5 D-53 D R A F T Appendix D Field Replaceable Units 4 Twist the RP to remove it. T F A R D D-54 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 5 Remove the mounting plate from the failed RP and attach it to the replacement RP. Set the failed RP aside. NOTE: Apply thread locking compound to the screws prior to installation. 6 Attach the RP to the octagonal mounting plate and twist to engage. D R A F T ONECELL Hardware Installation, Release 5.5 D-55 Appendix D Field Replaceable Units 7 Connect the Ethernet cable to the RP. T F A R D D-56 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 8 Replace the ceiling tile. 9 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. D R A F T ONECELL Hardware Installation, Release 5.5 D-57 Appendix D Field Replaceable Units Replacing a ceiling Indoor RP (on tile) 1 Disconnect the Ethernet cable from the RP. 2 If there is a locking screw, loosen it. 3 Twist the RP. T F A R D D-58 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 4 Remove the RP. Remove the mounting plate from the RP and set the RP aside. D R A F T ONECELL Hardware Installation, Release 5.5 D-59 Appendix D Field Replaceable Units 5 Attach the plate to the replacement RP. NOTE: Apply thread locking compound to the screws prior to installation. 6 Attach the RP to the octagonal mounting plate. T F A R D D-60 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 7 Secure RP to octagon plate. 8 Connect the Ethernet cable to the RP. 9 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. ONECELL Hardware Installation, Release 5.5 D-61 D R A F T Appendix D Field Replaceable Units Replacing a flown mounted Indoor RP 1 Disconnect the Ethernet cable. 2 Remove the RP. T F A R D D-62 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 3 Remove the mounting plate from the RP and set the failed RP aside. 4 Attach the mounting plate to the replacement RP. NOTE: Apply thread locking compound to the screws prior to installation. D R A F T ONECELL Hardware Installation, Release 5.5 D-63 Appendix D Field Replaceable Units 5 Attach the RP to the octagon plate. T F A R D D-64 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 6 Secure the RP. D R A F T ONECELL Hardware Installation, Release 5.5 D-65 Appendix D Field Replaceable Units 7 Connect the Ethernet cable to the RP. 8 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing a pole mounted Indoor RP 1 Disconnect the Ethernet cable. T F A R D D-66 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 2 Loosen the clamp, remove the RP and set it aside. 3 Remove the bracket from the failed RP and attach it to the replacement RP. ONECELL Hardware Installation, Release 5.5 D-67 D R A F T Appendix D Field Replaceable Units Bracket 4 Attach the replacement RP to the pole using the clamp. 5 Connect the Ethernet cable to the RP. T F A R D D-68 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 6 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing a vertical pole mounted Rugged RP 1 Disconnect the Ethernet cable and the antenna couplers from the RP. D R A F T ONECELL Hardware Installation, Release 5.5 D-69 Appendix D Field Replaceable Units 2 Remove the screws on the bottom of the RP and loosen the top screws. T F A R D D-70 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 3 Lift the RP off of the mounting plate and set it aside. D R A F T ONECELL Hardware Installation, Release 5.5 D-71 Appendix D Field Replaceable Units 4 Insert two screws into the upper holes on the replacement RP. NOTE: Do not tighten the screws. T F A R D D-72 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units CAUTION Ensure that the RP is oriented correctly with the two antenna connectors at the top of the RP. Required orientation 5 Hang the RP to the mounting bracket using the installed screws. Align holes at bottom location of bracket and install two additional screws. D R A F T ONECELL Hardware Installation, Release 5.5 D-73 Appendix D Field Replaceable Units T F A R D D-74 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 6 Insert two screws on the bottom of the RP and tighten all four screws. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. 7 Connect the antenna couplers on the top of the RP. NOTE: Check the antenna coupler manufacturers documentation for torque requirements. 8 Connect the Ethernet cable RJ45 end to the bottom of the RP. D R A F T ONECELL Hardware Installation, Release 5.5 D-75 Appendix D Field Replaceable Units 9 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing a horizontal pole mounted Rugged RP 1 Disconnect the Ethernet cable and the antenna couplers from the RP. T F A R D D-76 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 2 Remove the screws on the bottom of the RP and loosen the top screws. D R A F T ONECELL Hardware Installation, Release 5.5 D-77 Appendix D Field Replaceable Units 3 Lift the failed RP off of the mounting plate and set it aside. T F A R D 4 Insert two screws into the upper holes on the replacement RP. NOTE: Do not tighten the screws. D-78 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units CAUTION Ensure that the RP is oriented correctly with the two antenna connectors at the top of the RP. Required orientation 5 Attach the RP to the mounting plate. Tighten the top screws on the RP and insert and tighten the bottom screws on the RP. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. D R A F T ONECELL Hardware Installation, Release 5.5 D-79 Appendix D Field Replaceable Units 6 Connect the antenna couplers on the top of the RP. NOTE: Check the antenna coupler manufacturers documentation for torque requirements. 7 Connect the Ethernet cable RJ45 end to the bottom of the RP. T F A R D D-80 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 8 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing a wall mounted Rugged RP 1 Disconnect the Ethernet cable and the antenna couplers from the RP. D R A F T ONECELL Hardware Installation, Release 5.5 D-81 Appendix D Field Replaceable Units 2 Remove the screws on the bottom of the RP, loosen the top screws and remove the RP from the mounting plate. Set the RP aside. T F A R D D-82 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 3 On the replacement RP, insert two screws into the upper holes. Required orientation 4 Attach the RP to the mounting plate. Tighten the top screws on the RP and insert the bottom screws on the RP. ONECELL Hardware Installation, Release 5.5 D-83 D R A F T Appendix D Field Replaceable Units NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. 5 Connect the antenna couplers on the top of the RP. NOTE: Check the antenna coupler manufacturers documentation for torque requirements. 6 Connect the Ethernet cable RJ45 end to the bottom of the RP. T F A R D D-84 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 7 The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. RP post-replacement verification The operational state of the replaced RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. 1 Connect the Ethernet cable to the MGMT port on the BCs front panel. D R A F T ONECELL Hardware Installation, Release 5.5 D-85 Appendix D Field Replaceable Units 2 Open a supported browser. 3 Enter the IP address for the GUI, using the format below. https://<IP address of Management Interface>:6002 Example:

https://192.168.8.1:6002 The Sign In dialog box appears. T F A R D D-86 M0304AC 5.5.01 July 2021 Appendix D Field Replaceable Units 4 Ensure the WebGUI is operating in Management Mode. The Dashboard displays. 5 On the Dashboard, click the Radio Points link. The Radio Points Dashboard displays. 6 Click the RP Information tab. The RP Information page displays. ONECELL Hardware Installation, Release 5.5 D-87 D R A F T Appendix D Field Replaceable Units 7 Make sure the replaced RP is UP. T F A R D D-88 M0304AC 5.5.01 July 2021 Appendix E Cable installation and power separation guidelines This section contains best practices for installing Ethernet cables and connecting them to RPs. Overview Cable handling Cable termination Lightning protection Ceiling connector Patch panel Power separation guidelines E-2 E-2 E-3 E-12 E-15 E-17 E-17 D R A F T E-1 ONECELL Hardware Installation, Release 5.5 Appendix E Cable installation and power separation guidelines Overview When installing Rugged RPs, cables that can withstand temperature extremes and inclement weather should be used. In outside environments, avoid contamination or damage to plugs. Plugs must be protected from sunlight and water in a suitable equipment housing or NEMA 4 rated box. It is also important to avoid exposure to water at cut ends of unfilled cables and cords. The following information is available to help you extend the operation of your RP and switches. Cable handling Indoor/outdoor cords can be routed outdoors above ground and indoors, and can be ordered in lengths long enough for direct (home-run) installations from switch to end equipment. Cords have 20% Insertion Loss De-rating so only 85 meters total can be supported. Extended lengths can be cut in two for terminating the indoor ends at protectors or panels. Terminations are similar to typical 4-pair indoor cables. Unreel long lengths of cable to ensure the cable does not become twisted or caught on objects. Figure E-1. Unreel cable T F A R D E-2 CommScope recommends using a sock fitted and secured over the plug to pull cable through long conduits. Sock information Tie wrap information M0304AC 5.5.01 July 2021 Appendix E Cable installation and power separation guidelines Figure E-2. Cable with sock attached using tie wrap Sock Conduit Tie-wrap Feed the sock through the conduit and secure the sock on the terminal end of the cable with the tie-wrap. Once the sock and tie-wrap are in place, pull the cable through the conduit. Cable termination Before installing the Rugged RP, terminate the RP end of the Ethernet cable with the RJ45, IP67 connector provided in the box. Figure E-3. RJ45, IP67 connector Flip the plug anti-snag to make it easier to push through the cord grips (flip it back before plugging in). ONECELL Hardware Installation, Release 5.5 D R A F T E-3 Appendix E Cable installation and power separation guidelines Use the split grommet provided. Once it is in place, coat it with silicone to ensure the connector is sealed. Figure E-4. Assembling the connector on the RP end Cable splicing Some cables are run in one piece from source to destination and have connector terminations. In other cases, two shorter pieces of cable need to be spliced together. When a cable is run to outdoor devices, you should take measures to ensure that cables are properly protected against moisture entering the cable. This is especially important when the jacket is stripped back from the wires. Some cables are gel filled and the termination includes cleaning the excess gel and blocking the end with silicone sealant to prevent future leakage. A typical blocking method uses a 2 cm length of Alpha Wire PVC-105-2 tubing or equivalent. 1 Fill all space inside the tubing with B-sealant. M0304AC 5.5.01 July 2021 T F A R D E-4 Appendix E Cable installation and power separation guidelines 2 Position the filled tube to overlap the end of the inner jacket and seal the gel. Clean off all excess sealant. NOTE: Tape can be used to stabilize the tube for immediate termination before the sealant sets. Cable termination Shielded cables must be properly terminated, either grounded or isolated. For exposed installations requiring protection, the end of the shield can be bonded in various ways. The following procedure is an example of one method. 1 Make a slit along the length of the jacket. Be careful not to tear the underlying shielding. D R A F T E-5 ONECELL Hardware Installation, Release 5.5 Appendix E Cable installation and power separation guidelines 2 Pull back the jacket along the slit and remove. T F A R D E-6 M0304AC 5.5.01 July 2021 Appendix E Cable installation and power separation guidelines 3 Fold back the foil shielding and drain wire to expose the inner jacket. 4 Prepare the inner jacket for blocking the gel and direct burial. a Cut back the inner jacket b Trim the flute c Clean the excess gel NOTE: The flute can be cut longer to match the blocking tube length. D R A F T E-7 ONECELL Hardware Installation, Release 5.5 Appendix E Cable installation and power separation guidelines 5 Fill all space inside the tubing with B-sealant and position the filled tube to overlap the end of the inner jacket and seal the gel. 6 Fold the drain wire and foil back over the tube and position the foil to be folded back over the tube. T F A R D E-8 M0304AC 5.5.01 July 2021 Appendix E Cable installation and power separation guidelines 7 An extra piece of foil can be used to cover the foil seam. 8 For an HGS620 termination, wrap the drain wire at least two times around and position it where the spring clips will capture them. 9 Tape over the foil for stability. 10 Trim the wire ends. ONECELL Hardware Installation, Release 5.5 D R A F T E-9 Appendix E Cable installation and power separation guidelines Cable grounding For CAT-6A cables, the shield termination method is to use the ground lug and B-

bond clip that are available in the 12A1 Grounding Kit. 1 Fold the foil back over the jacket end and wrap the drain wire around the end and push the ground lug over the wrap. T F A R D E-10 M0304AC 5.5.01 July 2021 Appendix E Cable installation and power separation guidelines 2 Open the B-bonding clip to be placed and closed over the grounding lug. 3 The lug tail can be cut off or used for ground attachment. 4 Treat the inner jacket as described in step 4 on page E-7. ONECELL Hardware Installation, Release 5.5 D R A F T E-11 Appendix E Cable installation and power separation guidelines For an isolated shield termination, the 1572A and 1592A outer jacket foil and drain wire are removed a short distance back from the termination and electrical tape is used to isolate the foil end. Lightning protection CommScope recommends including lightning protection in your ONECELL system to isolate equipment from surge damage. Important guidelines Verify hole diameter blocking may need to remain outside the cover Maintain pair twists up to termination points Avoid having pairs crossing over each other Indoor box To protect the cables in an indoor installation from lightning damage, CommScope recommends using the ITW Linx CAT6-A-LAN protector. NOTE The gel filled outdoor cable types will still need blocking. See Cable splicing and Cable termination for instructions on blocking cable. E-12 M0304AC 5.5.01 July 2021 T F A R D Appendix E Cable installation and power separation guidelines Figure E-5. CAT6-A lightning protector Outdoor protection The following is an example of a pole mounted CAT-6A configuration for protecting remote equipment installed outdoors. Table E-1 lists the recommended parts for installing the protection equipment. Table E-1. CAT-6A protection equipment parts list Part Name Link to Part on Distributors Web site NEMA 4x enclosure Allied Moulded fiberglass enclosure Bottom Mounted Liquid Tight Cordgrips Heyco pre-assembled cordgrips Bottom Mounted Liquid Tight Bushing Heyco liquid tight bushings snap-in Allied Moulded back panel Ditek surge protection buss Ditek 110RJC6APOE Protector Allied Moulded pole mount kit Back panel Ground buss Protector Pole mount kit D R A F T E-13 ONECELL Hardware Installation, Release 5.5 Appendix E Cable installation and power separation guidelines Figure E-6. Remote equipment protection for outdoor devices Back panel NEMA 4x enclosure Bottom Mounted Liquid Tight Cordgrips Ground Buss Bottom Mounted Liquid Tight Bushing NOTE Enclosure should be mounted close to the equipment for the best protection. T F A R D E-14 M0304AC 5.5.01 July 2021 Appendix E Cable installation and power separation guidelines Figure E-7. Protector box mounted to pole Pole Mount kit Ceiling connector If surge protection is not needed, gel flooded cables can be blocked and transitioned to indoor cable using a ceiling connector. The following link is for the recommended CommScope part. Ceiling connector 1 Terminate the indoor cable first then lay down a bed of B sealant. ONECELL Hardware Installation, Release 5.5 Minimize excess cord length D R A F T E-15 Appendix E Cable installation and power separation guidelines 2 Clean all gel from the end of the OSP cable. 3 After the cable and conductors are positioned, fill the area around the cable end with sealant and close the connector housing. T F A R D E-16 M0304AC 5.5.01 July 2021 Appendix E Cable installation and power separation guidelines Patch panel CommScope recommends installing a patch panel in the NOC to connect and manage CAT-6A cables. The following is a list of recommended CommScope 24 and 48 port patch panels and high density information outlets. 760163436_HFTP-HD6B-1U-24 760163444_HFTP-HD6B-2U-48 760163451_HFTPA-HD6B-1U-24 760163469_HFTPA-HD6B-2U-48 760163519_HFTP-J6 760163527_HFTP-J10G For more information, go to CommScope.com or contact your CommScope customer representative. Power separation guidelines For power separation best guidelines, refer to the following standards:

Telecommunications Pathways and Spaces, TIA-569-C Information technology Implementation and operation of customer premises cabling Part 2: Planning and installation, ISO/IEC 14763-2 Information Technology Cabling Installation Part 2: Installation Planning and practices inside buildings, BS EN 50174-2 D R A F T E-17 ONECELL Hardware Installation, Release 5.5 Appendix E Cable installation and power separation guidelines T F A R D E-18 M0304AC 5.5.01 July 2021 B ONECELL Hardware Installation, Release 5.5 DRAFT ONECELL Hardware Installation, Release 5.5 M0304AC 5.5.01 July 2021

CommScope Technologies LLC RF Exposure Exhibit REVISED DATE N/A SCOPE OF WORK EMC TESTING Band 5 Radio Module, Model: RPM-A5A11-B05 REPORT NUMBER 104326151MPK-002 ISSUE DATE October 30, 2020 PAGES 9 DOCUMENT CONTROL NUMBER Non-Specific Radio Report Shell Rev. December 2017 MPK 2017 INTERTEK RF Exposure Exhibit

(mobile devices) Report Number: 104326151MPK-002 Project Number: G104326151 Report Issue Date: October 30, 2020 Product Designation:

Model Tested:

Band 5 Radio Module RPM-A5A11-B05 FCC ID: QHYRPM-A5A11-B05 to for 47CFR 2.1091 CommScope Technologies LLC Tested by:

Intertek 1365 Adams Court Menlo Park, CA 94025 USA Client:

CommScope Technologies LLC 250 Apollo Drive Chelmsford, MA 01824 Report prepared by:

Report reviewed by:

Minh Ly / Project Engineer Krishna Vemuri / EMC Manager This report is for the exclusive use of Intertek's Client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility and liability are limited to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or damage occasioned by the use of this report. Only the Client is authorized to permit copying or distribution of this report and then only in its entirety. Any use of the Intertek name or one of its marks for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. The observations and test results in this report are relevant only to the sample tested. This report by itself does not imply that the material, product, or service is or has ever been under an Intertek certification program. Non-Specific Radio Report Shell Rev. December 2017 MPK EMC Report for CommScope Technologies LLC on the Model: RPM-A5A11-B05 Page 2 of 9 Issued: October 30, 2020 REPORT NUMBER: 104326151MPK-002 Report No. 104326151MPK-002 Equipment Under Test:

Band 5 Radio Module Trade Name:

CommScope Technologies LLC Model(s) Tested:

RPM-A5A11-B05 Applicant:

Contact:

Address:

Country:

CommScope Technologies LLC Elowra Khan CommScope Technologies LLC 250 Apollo Drive Chelmsford, MA 01824 USA Tel. Number:

(972) 952-9846 Email:

Elowra.khan@commscope.com Applicable Regulation:

47CFR 2.1091 Non-Specific Radio Report Shell Rev. December 2017 MPK EMC Report for CommScope Technologies LLC on the Model: RPM-A5A11-B05 Page 3 of 9 REPORT NUMBER: 104326151MPK-002 Issued: October 30, 2020 TABLE OF CONTENTS CommScope Technologies LLC .......................................................................................................................... 1 RF Exposure Summary ................................................................................................................... 5 1.0 RF Exposure Limits ........................................................................................................................ 5 2.0 Test Results (Mobile Configuration) ............................................................................................. 6 3.0 4.0 Document History ........................................................................................................................... 9 Non-Specific Radio Report Shell Rev. December 2017 MPK EMC Report for CommScope Technologies LLC on the Model: RPM-A5A11-B05 Page 4 of 9 Issued: October 30, 2020 REPORT NUMBER: 104326151MPK-002 1.0 RF Exposure Summary Test Radio frequency Radiation Exposure Evaluation 2.0 RF Exposure Limits Reference FCC 47 CFR2.1091 Result Complies In this document, we evaluate the RF Exposure to human body due the intentional transmission from the transmitter (EUT). The limits for Maximum Permissible Exposure (MPE) specified in FCC 1.1310 was followed. 2.1 FCC Limits According to FCC 1.1310 table 1: The criteria listed in the following table shall be used to evaluate the environmental impact of human exposure to radio-frequency (RF) radiation as specified in 1.1307(b) LIMITS FOR MAXIMUM PERMISSIBLE EXPOSURE (MPE) Frequency Range

(MHz) 0.3 3.0 3.0 30 30-300 300 - 1500 1500 - 100,000 0.3 1.34 1.34 30 30 300 300 - 1500 Electric Field Strength (V/m) Magnetic Field Strength (A/m) Power Density

(mW/cm2) Average Time

(minutes)

(A)Limits For Occupational / Control Exposures

(B)Limits For General Population / Uncontrolled Exposure 614 1842/f 61.4 614 824/f 27.5 1.63 4.89/f 0.163 1.63 2.19/f 0.073

*100

*900/f2 1.0 F/300 5

*100

*180/f2 0.2 F/1500 1.0 6 6 6 6 6 30 30 30 30 30 1500 - 100,000 F = Frequency in MHz

* = plane wave equivalent density Non-Specific Radio Report Shell Rev. December 2017 MPK EMC Report for CommScope Technologies LLC on the Model: RPM-A5A11-B05 Page 5 of 9 REPORT NUMBER: 104326151MPK-002 3.0 Test Results (Mobile Configuration) 3.1 Classification Issued: October 30, 2020 Radio is installed inside a mobile host device. The antenna of the product, under normal use condition, is at least 20 cm away from the body of the user and accessible to the end user. Warning statement to the user for keeping at least 20 cm or more separation distance with the antenna should be included in users manual. 3.2 EIRP calculations The EUT, Model: RPM-A5A11-B05 consists of Band 5 Radio module only. For RF exposure compliance refer reports # 104326151MPK-001. 3.3 Maximum RF Power Frequency Range

(MHz) RF Output

(dBm) Antenna Gain1

(dBi) 864 - 894 21.58 3.0 Note Conducted power measurements were taken from Report # 104326151MPK-001. 1As declared by the manufacturer. Non-Specific Radio Report Shell Rev. December 2017 MPK EMC Report for CommScope Technologies LLC on the Model: RPM-A5A11-B05 Page 6 of 9 REPORT NUMBER: 104326151MPK-002 3.4 RF Exposure Calculation Issued: October 30, 2020 3.4.1 RF Exposure calculation for RPM-A5A11-B05 radio. Calculations for this report are based on highest power measured for each band. Frequency Range (MHz) EIRP1

(dBm) EIRP1

(mW) Power Density

(mW/cm2)

@20 cm FCC Limit

(mW/cm2) Results 869 - 894 24.58 287.1 0.0571 0.596 Complies 1Note: Antenna gains below 0 are considered as 0dBi. Non-Specific Radio Report Shell Rev. December 2017 MPK EMC Report for CommScope Technologies LLC on the Model: RPM-A5A11-B05 Page 7 of 9 Issued: October 30, 2020 REPORT NUMBER: 104326151MPK-002 Appendix A: Power Density Calculation The Power Density can be calculated using the formula Where: S is Power Density in mW/cm2 D is the distance from the antenna in cm. S = EIRP/ 4D2 Non-Specific Radio Report Shell Rev. December 2017 MPK EMC Report for CommScope Technologies LLC on the Model: RPM-A5A11-B05 Page 8 of 9 REPORT NUMBER: 104326151MPK-002 4.0 Document History Revision/

Job Number 1.0/ G104326151 Writer Initials ML Issued: October 30, 2020 Date Change KV October 30, 2020 Original document Reviewer Initials Non-Specific Radio Report Shell Rev. December 2017 MPK EMC Report for CommScope Technologies LLC on the Model: RPM-A5A11-B05 Page 9 of 9

OneCell Hardware Installation Guide Release 4.5 Document Number: M0303A2 Document Revision: 4.5.01 Date: September 2020 DRAFT Copyright 2020 CommScope, All rights reserved. THIS DOCUMENT HAS BEEN DEVELOPED BY COMMSCOPE, AND IS INTENDED FOR THE USE OF ITS CUSTOMERS AND CUSTOMER SUPPORT PERSONNEL. THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE. ALL STATEMENTS, INFORMATION, AND RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED. USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS. THE SOFTWARE LICENSE AND LIMITED WARRANTY FOR THE ACCOMPANYING PRODUCT ARE SET FORTH IN THE INFORMATION PACKET THAT SHIPPED WITH THE PRODUCT AND ARE INCORPORATED HEREIN BY REFERENCE. IF YOU ARE UNABLE TO LOCATE THE SOFTWARE LICENSE OR LIMITED WARRANTY, CONTACT YOUR COMMSCOPE SALES REPRESENTATIVE FOR A COPY. T F A R D ii M0303A2 4.5.01 September 2020 Contents Document revision history About this document Audience ....................................................................................................................xiii Purpose.......................................................................................................................xiii What you need to know .............................................................................................xiii Customer documentation ...........................................................................................xiii Conventions ............................................................................................................... xiv Notes, cautions, and warnings ................................................................................... xvi PART 1 OVERVIEW AND PREPARATION Chapter 1 CommScope OneCell overview Overview....................................................................................................................1-2 CommScope OneCell system ....................................................................................1-2 OneCell hardware components ..................................................................................1-3 Baseband Controller physical ports.....................................................................1-3 Chapter 2 Preparing to install the OneCell system Overview....................................................................................................................2-2 Before installing the OneCell components ................................................................2-2 Commissioning the OneCell network........................................................................2-2 PART 2 ONECELL COMPONENT INSTALLATION Chapter 3 Baseband Controller installation Preparing for Baseband Controller installation..........................................................3-2 Installing the Baseband Controller into a rack...........................................................3-2 Chapter 4 RP5100i installation RP5100i installation overview...................................................................................4-2 Ceiling mount.............................................................................................................4-3 OneCell Hardware Installation, Release 4.5 D R A F T iii Contents Mounting the Radio Point on the ceiling tile ......................................................4-5 Mounting the Radio Point above the ceiling tile...............................................4-15 Flown mount ............................................................................................................4-22 Flown mount installation...................................................................................4-24 Pole mount ...............................................................................................................4-31 Pole mount installation......................................................................................4-31 Chapter 5 RP5100r installation Chapter 6 RP2000 Installation Rugged Radio Point installation overview ................................................................5-2 Pole mount installation ..............................................................................................5-4 Vertical pole mount .............................................................................................5-4 Wall mount installation ............................................................................................5-10 Indoor Radio Point (RP2000) installation overview..................................................6-2 Ceiling mount.............................................................................................................6-3 Mounting the Radio Point on the ceiling tile ......................................................6-5 Mounting the Radio Point above the ceiling tile...............................................6-13 Flown mount ............................................................................................................6-17 Flown mount installation...................................................................................6-18 Pole mount ...............................................................................................................6-23 Pole mount installation......................................................................................6-23 Chapter 7 RP2100 Installation Rugged Radio Point (RP2100) installation overview................................................7-2 Pole mount installation ..............................................................................................7-4 Vertical pole mount .............................................................................................7-4 Horizontal pole mount.......................................................................................7-10 Wall mount installation ............................................................................................7-17 T F A R D iv PART 3 APPENDICES Appendix A Safety Radiation Exposure Statement.................................................................................. A-2 FCC Part 15 ........................................................................................................ A-2 M0303A2 4.5.01 September 2020 EN55032............................................................................................................. A-2 Human exposure limits for OneCell deployments.................................................... A-2 Reference documents ......................................................................................... A-4 Contents Appendix B Installation troubleshooting Baseband Controller LED patterns ........................................................................... B-2 Radio Point LED patterns ......................................................................................... B-4 RP5100i LED patterns........................................................................................ B-4 RP5100r LED patterns ....................................................................................... B-6 RP2000 series LED patterns............................................................................... B-7 Appendix C Specifications Appendix D Field Replaceable Units Environmental and physical specifications............................................................... C-2 SPF/SPF+ specifications........................................................................................... C-3 FRU overview...........................................................................................................D-2 Replacing Baseband Controller modules..................................................................D-2 Prerequisites .......................................................................................................D-2 Off-site activities ................................................................................................ D-3 On-site activities.................................................................................................D-7 Post-Install Verification .................................................................................... D-11 Replacing Radio Points prerequisites and on-site activities ...................................D-13 Prerequisites .....................................................................................................D-13 On-site activities...............................................................................................D-14 Replacing RP5100 series Radio Points................................................................... D-16 Replacing a ceiling RP5100i (above tile).........................................................D-17 Replacing a flown mounted RP5100i...............................................................D-32 Replacing a pole mounted RP5100i .................................................................D-42 Replacing RP5100i RF modules.............................................................................D-47 Replacing RP2000 series Radio Points................................................................... D-52 Replacing a ceiling Indoor RP (above tile) ......................................................D-52 Replacing a flown mounted Indoor RP ............................................................ D-62 Replacing a pole mounted Indoor RP...............................................................D-66 Replacing a vertical pole mounted Rugged RP................................................D-69 Replacing a horizontal pole mounted Rugged RP............................................D-76 Replacing a wall mounted Rugged RP.............................................................D-81 D R A F T v OneCell Hardware Installation, Release 4.5 Contents RP post-replacement verification............................................................................ D-85 Appendix E Cable installation and power separation guidelines Overview................................................................................................................... E-2 Cable handling .......................................................................................................... E-2 Cable termination...................................................................................................... E-3 Cable splicing ..................................................................................................... E-4 Cable termination ............................................................................................... E-5 Cable grounding ............................................................................................... E-10 Lightning protection................................................................................................ E-12 Important guidelines......................................................................................... E-12 Indoor box ........................................................................................................ E-12 Outdoor protection ........................................................................................... E-13 Ceiling connector .................................................................................................... E-15 Patch panel .............................................................................................................. E-17 Power separation guidelines ................................................................................... E-17 T F A R D vi M0303A2 4.5.01 September 2020 Contents D R A F T vii OneCell Hardware Installation, Release 4.5 List of figures Figure 1-1 Figure 1-2 Figure 4-1 Figure 4-2 Figure 4-3 Figure 4-4 Figure 5-1 Figure 5-2 Figure 5-3 Figure 6-1 Figure 6-2 Figure 6-3 Figure 6-4 Figure E-1 Figure E-2 Figure E-3 Figure E-4 Figure E-5 Figure E-6 Figure E-7 OneCell solution ..............................................................................1-3 Baseband Controller ports ...............................................................1-4 CommScope ceiling mount kit contents ..........................................4-3 Drop rail, system integrator-provided..............................................4-4 CommScope flown mount kit contents..........................................4-23 Mounting bracket kit contents .......................................................4-31 Hardware provided by CommScope................................................5-2 Hardware provided by the systems integrator .................................5-3 RJ45, IP67 connector assembly.......................................................5-4 CommScope ceiling mount kit contents ..........................................6-3 Drop rail, system integrator-provided..............................................6-4 CommScope supplied kit contents.................................................6-17 Mounting bracket kit contents .......................................................6-23 Unreel cable .................................................................................... E-2 Cable with sock attached using tie wrap......................................... E-3 RJ45, IP67 connector...................................................................... E-3 Assembling the connector on the RP end ....................................... E-4 CAT6-A lightning protector ......................................................... E-13 Remote equipment protection for outdoor devices....................... E-14 Protector box mounted to pole...................................................... E-15 D R A F T viii OneCell Hardware Installation, Release 4.5 List of tables Table 1 Table 2 Table 1-1 Table A-1 Table A-2 Table C-1 Table E-1 Customer documentation ................................................................... xiv Conventions ....................................................................................... xiv Baseband Controller physical port assignments.................................1-4 RF exposure for OneCell at maximum power internal antennas for RP5000 series ....................................................................................A-3 RF exposure for OneCell at maximum power internal antennas for RP2000 series ....................................................................................A-4 Environmental and Physical specifications....................................... C-2 CAT-6A protection equipment parts list ......................................... E-13 D R A F T ix OneCell Hardware Installation, Release 4.5 List of tables T F A R D x M0303A2 4.5.01 September 2020 Document revision history The following section lists documentation changes in OneCell Installation Guide, v4.5 (M0303A2). Revision 4.5.01 (September 14, 2020) Initial document release Added Band 5 (RPM-A5A11-B05) and Band 30 (RPM-A5A11-B30) RF exposure data to Table A-1 on page A-3 D R A F T xi OneCell Hardware Installation, Release 4.5 Document revision history T F A R D xii M0303A2 4.5.01 September 2020 About this document This document provides the procedures for installing and configuring the Baseband Controller and Radio Points. Audience Purpose This document is written for computer hardware installers and administrators, network architects and business planners who are responsible for the planning and design of the CommScope OneCell deployment environment. This guide provides the information necessary for installing the OneCell hardware in the operators network. What you need to know The reader should have a basic understanding of:

Data networks LTE technology General telecommunications practices Customer documentation The following table lists available documents in the OneCell documentation suite. OneCell Hardware Installation, Release 4.5 D R A F T xiii About this document Table 1. Customer documentation Title Contents OneCell Feature Guide, v4.5

(M0303A0) OneCell Network Planning Guide, v4.5 (M0303A1) Contains a description of anchor features for the current release, and a system overview, including CommScope provided components and required components from other vendors. Describes main components of the OneCell system, high-level view of hardware components, how do you engineer an in-building system, how do you determine Radio Points locations, and how to design in-building systems. Contains best practices for deployment, including when to use clustering, and how to manage capacity. OneCell Installation Guide, v4.5

(M0303A2) Includes detailed installation instructions for Baseband Controller and Radio Points hardware. OM and KPI Reference for OneCell Devices, v4.5

(M0303A3) Describes the operational measurements and key performance indicators for OneCell devices. OneCell Troubleshooting, v4.5

(M0303A4) Covers common troubleshooting scenarios in deployed devices and troubleshooting methods. OneCell Administration, v4.5

(M0303A5) Describes how to operate, maintain and manage OneCell devices using the Baseband Controllers Web UI. OneCell Device Alarm Reference

(M0301A7) Includes OneCell device alarm information. T F A R D xiv M0303A2 4.5.01 September 2020 About this document Conventions This guide uses the following text conventions, as applicable. Table 2. Conventions Convention Description Syntax symbols

Font usage Bold input font Italic input font Plain output font Italic output font Enclose a required parameter or set of parameters. For example:

>band-class <class>

<class> is a required parameter. Enclose an optional parameter or set of parameters. For example:

>activate image <version> [reboot]

[reboot] is an optional parameter. Separates items on a list of parameters, only one of which can be used. For example:

>channel-included <yes|no>

A valid command is:

>channel-included yes Indicates text that must be entered exactly as shown. For example:

Enter ping 192.23.10.12. Indicates a variable parameter for which you must provide an actual value. For example:

>authentication key <aukey>

<aukey> is a variable parameter. A valid command is:

>authentication key 9782503000 Indicates system output in a command line or system-

generated file. For example:

IP address 192.23.10.12 is alive. Indicates a variable in system output in a command line or system-generated file. For example:

Installation of release <release> is complete. D R A F T xv OneCell Hardware Installation, Release 4.5 About this document Table 2. Conventions Convention Description blue text Indicates a hypertext link. Plain italic font Bold font Other conventions

Indicates file names, directory paths, book titles, chapter titles, and user accounts. Indicates text that appears on screen exactly as shown, for example, names of screens, names of buttons, items on menus, and items on pull down lists. Indicates graphical user interface (GUI) menu path. For example:

Select Edit > Add Network to open the Add Network screen. Notes, cautions, and warnings NOTE Notes provide additional information about the subject text. CAUTION Cautions indicate that procedures, if performed incorrectly, can cause equipment damage or data loss. WARNING Warnings indicate that procedures, if performed incorrectly, can harm you. M0303A2 4.5.01 September 2020 T F A R D xvi Part I: Overview and preparation Chapter 1 CommScope OneCell overview Chapter 2 Preparing to install the OneCell system D R A F T T F A R D Chapter 1 CommScope OneCell overview This chapter contains a high level overview of the OneCell deployment and the OneCell components installed in the OneCell system. Overview CommScope OneCell system OneCell hardware components 1-2 1-2 1-3 D R A F T 1-1 OneCell Hardware Installation, Release 4.5 Chapter 1 CommScope OneCell overview Overview OneCell is a revolutionary wireless system that can deliver the ultimate in wireless performance. It eliminates cell borders and handovers It can cover a large area with consistent user experience without any significant interference It can take advantage of multiple distributed radio points to deliver a stronger signal on both the downlink and the uplink It can deliver greater capacity through distributed (multi-user and single-user) MIMO and Coordinated Multipoint (CoMP) It has the flexibility to neutralize macro interference in co-channel small cell deployments It can be used to deliver unprecedented levels of capacity to hot spot areas by deploying radio points with overlapping coverage and enabling multi- user MIMO In addition to these important benefits in user experience and data capacity, OneCell provides superior economics and investment protection, ease of deployment, support for multi-operator deployments. CommScope OneCell system OneCell is an in-building, enterprise solution for LTE that provides an in-building consistent signal. It operates as a wireless network with a single cell, called a Baseband Controller, over distributed Radio Points. Network operators benefit from the OneCell because they reduce the load on their infrastructure. T F A R D 1-2 M0303A2 4.5.01 September 2020 Figure 1-1. OneCell solution Chapter 1 CommScope OneCell overview OneCell hardware components The OneCell hardware consists of the following components:

Baseband Controller Baseband Controller Chassis Baseband Controller Module Power/Fan Unit (PFU) Baseband Controller physical ports The following ports are on the front panel of the Baseband Controller Module. Table 1-1 shows the port assignments. In addition, there is a connector used for the GPS antenna cable. NOTE For more detailed BC port information, see OneCell Network Planning Guide, v4.5 (M0303A1). OneCell Hardware Installation, Release 4.5 D R A F T 1-3 Chapter 1 CommScope OneCell overview Table 1-1. Baseband Controller physical port assignments Port Assignment Network Port Speed Media Type Description MGMT 1 Gbps RJ45 Local Management External Interface to access the WebGUI on the Baseband Controller. Not used 1 Gbps Not used IQ Data 1 Gbps Boundary Clock 1 Gbps IPsec 1 Gbps X2 and Redundancy 1 Gbps 1 Gbps RP Management and Timing RJ45 RJ45 Dual Media RJ45 or SFP Dual Media RJ45 or SFP Dual Media RJ45 or SFP Dual Media RJ45 or SFP IQ Data 10 Gbps SFP+

Not used 10 Gbps SFP+

Not used Fronthaul IQ Data Traffic between the Baseband Controller and Radio Points via an Ethernet switch on copper (RJ45) port. Boundary Clock Input of IEEE 1588 PTP Timing signal via dual media port. Backhaul Traffic (S1 and OAM Interfaces) via dual media port. VLAN tags are configurable in Dual IPsec mode to separate different traffic streams on the same port. Fronthaul Traffic for X2 and Redundancy Cluster data via dual media port. Fronthaul Traffic for IEEE 1588 PTP timing and SOAP/XML control data via dual media port. Timing and OAM data traffic between Baseband Controller and Radio Points through an Ethernet switch(s) Fronthaul IQ Data Traffic between the Baseband Controller and Radio Points via Ethernet switch on Fiber (SFP) port. 0 1-6 7 8 9 10 11 12 T F A R D 1-4 M0303A2 4.5.01 September 2020 Figure 1-2. Baseband Controller ports Chapter 1 CommScope OneCell overview Copper wire ports Fiber optic ports OneCell Hardware Installation, Release 4.5 D R A F T 1-5 Chapter 1 CommScope OneCell overview T F A R D 1-6 M0303A2 4.5.01 September 2020 Chapter 2 Preparing to install the OneCell system This section has the steps to complete before starting the OneCell installation. Overview Before installing the OneCell components 2-2 2-2 D R A F T 2-1 OneCell Hardware Installation, Release 4.5 Chapter 2 Preparing to install the OneCell system Overview This document describes the OneCell installation and includes:

Chapter 3, Baseband Controller installation Chapter 4, RP5100i installation Chapter 5, RP5100r installation Chapter 6, RP2000 Installation Chapter 7, RP2100 Installation Before installing the OneCell components Before installing the OneCell components, the system integrator must plan the network for the topology that will be deployed. See OneCell Network Planning Guide

(913023). CommScope recommends that cables and switches be in place before installing the OneCell components. See Appendix E, Cable installation and power separation guidelines for more information. Commissioning the OneCell network To bring your OneCell system up, youll need to commission the system by configuring it. The commissioning procedures are dependent on the site installation. Contact your CommScope representative for your commissioning procedures. T F A R D 2-2 M0303A2 4.5.01 September 2020 Part II: OneCell component installation Chapter 3 Baseband Controller installation Chapter 4 RP5100i installation Chapter 5 RP5100r installation Chapter 6 RP2000 Installation Chapter 7 RP2100 Installation D R A F T T F A R D Chapter 3 Baseband Controller installation This chapter contains the Baseband Controller installation procedures, including chassis installation into a rack, Baseband Controller Module and Power/Fan Unit installation into the Baseband Controller Chassis and the cables required for a basic installation. Preparing for Baseband Controller installation Installing the Baseband Controller into a rack 3-2 3-2 D R A F T 3-1 OneCell Hardware Installation, Release 4.5 Chapter 3 Baseband Controller installation Preparing for Baseband Controller installation Open the shipping box. It should have the components for one complete Baseband Controller Module:

Baseband Controller Chassis including four mounting screws Baseband Controller Module Power/Fan Unit (PFU) The Baseband Controller is 1U high. Be sure there is enough room for the Baseband Controller in the rack. NOTE If you are installing a OneCell system with GPS timing, you will need a coaxial cable with an SMA-type male connector to the Baseband Controller. For information on RF gain requirements, see OneCell Network Planning Guide, v4.5

(M0303A1). Installing the Baseband Controller into a rack The Baseband Controller can be installed in a 19-inch or 600mm rack. The Baseband Controller Chassis package contains two kits: one with 19-inch brackets and one with 600mm brackets. CAUTION The Baseband Controller, when mounted, must be in the horizontal position. No other orientations are allowed. NOTE The chassis requires four screws to secure it into the rack. 1 Select the 19-inch or 600mm bracket kit according to the size of the rack. Attach the brackets to the Baseband Controller Chassis M0303A2 4.5.01 September 2020 T F A R D 3-2 Chapter 3 Baseband Controller installation 2 Slide the chassis into the rack. 3 Line up the holes in the chassis ears to the holes in the rack. 4 Secure the chassis with the screws. D R A F T 3-3 OneCell Hardware Installation, Release 4.5 Chapter 3 Baseband Controller installation 5 Carefully slide the BC into the front of the chassis. 6 Secure the BC by tightening the front panel screws. T F A R D 3-4 M0303A2 4.5.01 September 2020 Chapter 3 Baseband Controller installation 7 In the back of the rack, carefully slide the PFU into the back of the chassis. CAUTION The PFU has a fan hazard. A label is affixed to the top of the PFU indicating the hazard. Fan hazard label NOTE: The connectors on the PFU should fit easily into the connector on the BC. Do not force the PFU into the chassis. D R A F T 3-5 OneCell Hardware Installation, Release 4.5 Chapter 3 Baseband Controller installation 8 Secure the PFU by tightening the thumb screws. 9 Connect the power cord to the PFU. T F A R D 3-6 M0303A2 4.5.01 September 2020 Chapter 3 Baseband Controller installation 10 On the Baseband Controller Modules front panel, connect the GPS antenna cable. 11 Connect the Ethernet or fiber optic cable to the appropriate port. D R A F T 3-7 OneCell Hardware Installation, Release 4.5 Chapter 3 Baseband Controller installation 12 On the back of the Baseband Controller, turn on the power. The LEDs on the front panel will be solid green, when the power is on. If none are on, check your power connection. If the LED pattern is other than all green, see Baseband Controller LED patterns on page B-2. T F A R D 3-8 M0303A2 4.5.01 September 2020 Chapter 4 RP5100i installation This chapter describes installing indoor Radio Points on ceiling tiles, above ceiling tiles, on poles and in a flown configuration. RP5100i installation overview Ceiling mount Flown mount Pole mount 4-2 4-3 4-22 4-31 D R A F T 4-1 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation RP5100i installation overview The RP5100i is the Radio Point for indoor solutions. There are four configurations for installing the RP5100i, which are dependent on the ceiling type. Ceiling mount, on tile Ceiling mount, above tile Flown mount Pole mount Once the Radio Point is installed and powered on, it may take up to 20 minutes for the frequency to stabilize and lock. If the MR port is connected to a switch that does not provide IEEE802.3bt, type-4 PoE power, the SR port can be used to provide power with a PoE++ injector. For more information, see OneCell Network Planning Guide, v4.5 (M0303A1). NOTE NOTE T F A R D 4-2 M0303A2 4.5.01 September 2020 Ceiling mount Chapter 4 RP5100i installation Mounting the Radio Point (RP) above or on the ceiling tile requires the following hardware provided by CommScope:

Radio Point plate and screws 4" octagon box, 1-1/2" deep with 1/2" side cutouts Clamp and screw Figure 4-1. CommScope ceiling mount kit contents Octagon box Mounting plate for octagon box with 2 screws Mounting plate for RP with 4 screws D R A F T 4-3 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation Mounting the Radio Point (RP) above or on the ceiling tile requires the following hardware provided by the system integrator:

Drop rail Eaton B-line BA50A or equivalent, with a static load capacity of at least 25 lbs without a drop wire, recommended Figure 4-2. Drop rail, system integrator-provided Drop rail Clamp 2 screws T F A R D 4-4 M0303A2 4.5.01 September 2020 Chapter 4 RP5100i installation Mounting the Radio Point on the ceiling tile 1 Remove two ceiling tiles from the overhead. 2 Place the octagon box on the tile and trace the outline. Cut the opening. 3 Drill a 1/2-inch diameter hole for the Ethernet cable pass-through. NOTE: Use a 1-1/2 deep RACO 8125 or equivalent. D R A F T 4-5 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 4 Attach the octagon box to the ceiling bracket using a clamp and screw. 70 mm

(2.7) 138 mm

(5.4) Clamp Drop ceiling rail Octagon box Screws M0303A2 4.5.01 September 2020 T F A R D 4-6 5 Replace the ceiling tile with the cutouts. Chapter 4 RP5100i installation D R A F T 4-7 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 6 Install the drop rail/octagon box assembly over the modified tile. T F A R D 4-8 M0303A2 4.5.01 September 2020 Chapter 4 RP5100i installation 7 Attach the mounting plate onto the octagon box and feed the Ethernet cable through the small hole in the ceiling tile. Ethernet cable Mounting plate D R A F T 4-9 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 8 Attach base plate to the Radio Point. NOTE: Apply thread locking compound to screws prior to installation. 9 Mount the Radio Point on the octagon box plate. Ethernet cable T F A R D 4-10 M0303A2 4.5.01 September 2020 10 Secure Radio Point to the octagon plate. Chapter 4 RP5100i installation D R A F T 4-11 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 11 Remove the cover from the RP. NOTE: The cover is attached to the RP with two lanyards. T F A R D 4-12 M0303A2 4.5.01 September 2020 12 Connect Ethernet cable to the MR port on the Radio Point. Chapter 4 RP5100i installation D R A F T 4-13 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 13 Replace plastic cover on the Radio Point. 14 Replace the ceiling tile next to the Radio Point. T F A R D 4-14 M0303A2 4.5.01 September 2020 Chapter 4 RP5100i installation Mounting the Radio Point above the ceiling tile 1 Remove ceiling tile from the overhead. D R A F T 4-15 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 2 Attach the octagon box to the bracket. NOTE: CommScope recommends an Eaton B-line BA50A adjustable bracket. Clamp Drop rail Octagon box Screw T F A R D 4-16 M0303A2 4.5.01 September 2020 3 Attach the bracket to the mounting plate to the octagon box. Chapter 4 RP5100i installation 4 Attach plate to the Radio Point. NOTE: Apply thread locking compound to screws prior to installation. D R A F T 4-17 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 5 Attach the Radio Point to the octagon box mounting plate. T F A R D 4-18 M0303A2 4.5.01 September 2020 6 Install drop rail above the ceiling tile. Chapter 4 RP5100i installation D R A F T 4-19 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 7 Remove the cover from the RP. NOTE: The cover is attached to the RP with two lanyards. 8 Connect the Ethernet cables to the Radio Point MR port. T F A R D 4-20 M0303A2 4.5.01 September 2020 9 Replace the cover on the Radio Point. Chapter 4 RP5100i installation NOTE: The minimum clearance for cooling is 3 inches. 3 Ceiling tile D R A F T 4-21 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 10 Replace the ceiling tile. Flown mount The Radio Point can be flown mounted on the end of a rod. This configuration is used for building where there are no drop ceilings. Mounting the Radio Point (RP) in the flown configuration requires the following hardware provided by CommScope in the mounting kit:

Radio Point plate and screws 4" octagon box, 1-1/2" deep with 1/2" side cutouts NOTE: Remove the top, middle cutout. Clamp and screw this hardware is not required for the flown mount option T F A R D 4-22 M0303A2 4.5.01 September 2020 Figure 4-3. CommScope flown mount kit contents Chapter 4 RP5100i installation Octagon box Mounting the Radio Point (RP) in the flown configuration requires the following hardware provided by the system integrator:

Mounting plate for RP with 4 screws Mounting plate for octagon box with 2 screws Rod, 3/8-inch threaded Nut Lock nut, nylon Flat washers D R A F T 4-23 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation Flown mount installation 1 Attach the threaded, 3/8-inch rod, cut to the required length, to the ceiling. 2 Install the nut and a flat washer on the rod. 3 Slide the octagon box on the rod and install a flat washer and the nylon lock nut. NOTE: Be sure the bracket is tight between the nuts and there is enough clearance at the end of the rod to attach the bracket to the Radio Point. T F A R D 4-24 M0303A2 4.5.01 September 2020 4 Attach plate to octagon box. Chapter 4 RP5100i installation D R A F T 4-25 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 5 Attach the mounting plate to the Radio Point. T F A R D 4-26 M0303A2 4.5.01 September 2020 6 Attach the Radio Point to the octagon box. Chapter 4 RP5100i installation D R A F T 4-27 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 7 Remove the cover from the RP. NOTE: The cover is attached to the RP with two lanyards. T F A R D 4-28 M0303A2 4.5.01 September 2020 8 Connect the Ethernet cable to the Radio Point MR port. Chapter 4 RP5100i installation D R A F T 4-29 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 9 Attach the plastic cover to the Radio Point. Installation is complete. T F A R D 4-30 M0303A2 4.5.01 September 2020 Pole mount Chapter 4 RP5100i installation The Radio Point can be pole mounted. This configuration is used for building where there are no drop ceilings. Mounting the Radio Point (RP) on a pole requires the following hardware provided by CommScope in the mounting kit:

Mounting bracket Screws Figure 4-4. Mounting bracket kit contents Mounting the Radio Point (RP) on a pole requires the following hardware provided by the system integrator:

Adjustable clamp at least 2 inches larger than the circumference of the pole Pole mount installation 1 Attach the bracket to the Radio point. D R A F T 4-31 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 2 Slide the adjustable clamp through the slots on the Radio Point bracket. 3 Wrap the clamp around the pole and tighten the clamp screw to secure the Radio Point to the pole. T F A R D 4-32 M0303A2 4.5.01 September 2020 Chapter 4 RP5100i installation 4 Remove the cover from the RP. NOTE: The cover is attached to the RP with two lanyards. D R A F T 4-33 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation 5 Connect the Ethernet cable to the Radio Point MR port. T F A R D 4-34 M0303A2 4.5.01 September 2020 6 Replace the plastic cover on the Radio Point. Chapter 4 RP5100i installation D R A F T 4-35 OneCell Hardware Installation, Release 4.5 Chapter 4 RP5100i installation Installation is complete. T F A R D 4-36 M0303A2 4.5.01 September 2020 Chapter 5 RP5100r installation This chapter describes installing Rugged Radio Points on poles and walls. Rugged Radio Point installation overview Pole mount installation Wall mount installation 5-2 5-4 5-10 D R A F T 5-1 OneCell Hardware Installation, Release 4.5 Chapter 5 RP5100r installation Rugged Radio Point installation overview The Rugged Radio Point (RP) ships with the following hardware:

Radio Point Mounting plate Mounting bolts (M8 Hex) RJ45, IP67 connector for CAT 6A cables Figure 5-1. Hardware provided by CommScope NOTE An M8 hex wrench is required to install mounting bolts. Mounting the Radio Point (RP) on a pole requires the following hardware provided by the system integrator:

Two U bolts Four nuts OneCell Hardware Installation, Release 4.5 D R A F T 5-2 Chapter 5 RP5100r installation RJ45, IP67 connector for CAT 5E Ethernet surge protector, as required by local code (for example, DTK-MRJPOEX or DTK-MRJPOES) NOTE If the MR port is connected to a switch that does not provide IEEE802.3bt, type-4 PoE power, the SR port can be used to provide power with a PoE++ injector. In this case, the installer needs to provide a CAT 5E MPN 17-10044 connector (https://

www.conec.com/catalog/en/rj45-stecker-set.html) to connect the RJ45 to the SR port. For more information, see OneCell Network Planning Guide, v4.5

(M0303A1). Figure 5-2. Hardware provided by the systems integrator T F A R D 5-3 Mounting the Radio Point (RP) on a wall requires the following hardware provided by the system integrator:

Four molly screws capable 50 lb (23 kg) minimum rating NOTE Once the Radio Point is installed and the powered on, it may take up to 20 minutes for the frequency to stabilize and lock. Before connecting the Ethernet cables to the RP, terminate the RP end of the Ethernet cable with the RJ45, IP67 connector. M0303A2 4.5.01 September 2020 Figure 5-3. RJ45, IP67 connector assembly Chapter 5 RP5100r installation Pole mount installation There is vertical orientation for pole mount installations NOTE The minimum pole diameter requirement is 4'' (102mm). Vertical pole mount 1 Slide the two U bolt clamps onto the pole and secure the RP mounting plate to the clamps with four nuts. D R A F T 5-4 OneCell Hardware Installation, Release 4.5 Chapter 5 RP5100r installation T F A R D 5-5 M0303A2 4.5.01 September 2020 2 Insert two screws into the upper holes on opposite sides of the RP. Chapter 5 RP5100r installation Required orientation is with connectors at the bottom of the RP D R A F T 5-6 OneCell Hardware Installation, Release 4.5 Chapter 5 RP5100r installation 3 Hang the RP to the mounting bracket using the installed screws. CAUTION Ensure that the RP is oriented correctly with all connectors at the bottom of the RP. Required orientation with connectors at the bottom of the RP T F A R D 5-7 M0303A2 4.5.01 September 2020 Chapter 5 RP5100r installation 4 Align holes at bottom location of bracket. Insert and tighten the bottom screws through the plate hole into both sides of the RP. Be sure that all four screws are tightened. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. D R A F T 5-8 OneCell Hardware Installation, Release 4.5 Chapter 5 RP5100r installation 5 Connect the antenna cables on the bottom of the RP. 6 Connect the Ethernet cable RJ45 end to the bottom of the RP to the MR port. MR port T F A R D 5-9 M0303A2 4.5.01 September 2020 Chapter 5 RP5100r installation Wall mount installation 1 Drill four holes in the wall using the mounting plate to determine the hole locations. Mount the backplate on the wall with four molly screws. T F A R D 5-10 M0303A2 4.5.01 September 2020 Chapter 5 RP5100r installation 2 Insert two screws into the upper holes on opposite sides of the RP as shown in the drawing below. Required orientation is with connectors at the bottom of the RP OneCell Hardware Installation, Release 4.5 D R A F T 5-11 Chapter 5 RP5100r installation 3 Attach the RP to the mounting plate. Required orientation is with connectors at the bottom of the RP 4 Tighten the top screws on the RP and insert and tighten the bottom screws on the RP. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. T F A R D 5-12 M0303A2 4.5.01 September 2020 Chapter 5 RP5100r installation 5 Insert and tighten the bottom screws through the plate hole into both sides of the RP. D R A F T 5-13 OneCell Hardware Installation, Release 4.5 Chapter 5 RP5100r installation 6 Connect the antenna cables on the bottom of the RP. 7 Connect the Ethernet cable RJ45 end to the bottom of the RP to the MR port. NOTE: Insert the Ethernet surge protection as required by local code (for example, DTK-MRJPOEX or DTK-MRJPOES). MR port T F A R D 5-14 M0303A2 4.5.01 September 2020 Chapter 6 RP2000 Installation This chapter describes installing indoor Radio Points on ceiling tiles, above ceiling tiles, on poles and in a flown configuration. Indoor Radio Point (RP2000) installation overview Ceiling mount Flown mount Pole mount 6-2 6-3 6-17 6-23 D R A F T 6-1 OneCell Hardware Installation, Release 4.5 Chapter 6 RP2000 Installation Indoor Radio Point (RP2000) installation overview There are four configurations for installing the Radio Point, which are dependent on the ceiling type. Ceiling mount, on tile Ceiling mount, above tile Flown mount Pole mount NOTE Once the Radio Point is installed and the powered on, it may take up to 20 minutes for the frequency to stabilize and lock. T F A R D 6-2 M0303A2 4.5.01 September 2020 Chapter 6 RP2000 Installation Ceiling mount Mounting the Radio Point (RP) above or on the ceiling tile requires the following hardware provided by CommScope:

Radio Point mounting plate and 4 screws Octagon box mounting plate and 2 screws 4" octagon box, 1-1/2" deep with 1/2" side cutouts Clamp with screw - not required for flown mount option Figure 6-1. CommScope ceiling mount kit contents Octagon box Mounting plate for octagon box with 2 screws Clamp with 1 screw Mounting plate for RP with 4 screws D R A F T 6-3 OneCell Hardware Installation, Release 4.5 Chapter 6 RP2000 Installation Mounting the Radio Point (RP) above or on the ceiling tile requires the following hardware provided by the systems integrator:

Drop rail Eaton B-line BA50 recommended Figure 6-2. Drop rail, system integrator-provided T F A R D 6-4 M0303A2 4.5.01 September 2020 Mounting the Radio Point on the ceiling tile 1 Remove two ceiling tiles from the overhead. Chapter 6 RP2000 Installation 2 Place the octagon box on the tile and trace the outline. Cut the opening. D R A F T 6-5 OneCell Hardware Installation, Release 4.5 Chapter 6 RP2000 Installation 3 Drill a 1/2-inch diameter hole for the Ethernet cable pass-through. NOTE: Use a 1-1/2 deep RACO 8125 or equivalent. 4 Attach the octagon box to the ceiling bracket using a clamp and screw. NOTE: CommScope recommends the Eaton B-line BA50 bracket. 1/2-inch diameter hole Hole for mounting plate Clamp Drop ceiling rail Octagon box Screw M0303A2 4.5.01 September 2020 T F A R D 6-6 5 Replace the ceiling tile with the cutouts. Chapter 6 RP2000 Installation D R A F T 6-7 OneCell Hardware Installation, Release 4.5 Chapter 6 RP2000 Installation 6 Install the drop rail assembly over the ceiling tile with the cutouts. T F A R D 6-8 M0303A2 4.5.01 September 2020 7 Attach the mounting plate onto the octagon box. Chapter 6 RP2000 Installation Ethernet cable Mounting plate 8 Attach base plate to the Radio Point. NOTE: Apply thread locking compound to screws prior to installation. D R A F T 6-9 OneCell Hardware Installation, Release 4.5 Chapter 6 RP2000 Installation 9 Mount the Radio Point to the octagon box plate. 10 Secure the Radio Point. T F A R D 6-10 M0303A2 4.5.01 September 2020 11 Connect the Ethernet cable to the Radio Point. Chapter 6 RP2000 Installation 12 Replace the second ceiling tile. D R A F T 6-11 OneCell Hardware Installation, Release 4.5 Chapter 6 RP2000 Installation Installation is complete. T F A R D 6-12 M0303A2 4.5.01 September 2020 Mounting the Radio Point above the ceiling tile 1 Remove ceiling tile from the overhead. Chapter 6 RP2000 Installation 2 Attach the octagon box to the bracket. Clamp Drop ceiling rail Octagon box Screw D R A F T 6-13 OneCell Hardware Installation, Release 4.5 Chapter 6 RP2000 Installation 3 Attach the mounting plate to the Radio Point. NOTE: Apply thread locking compound to screws prior to installation. 4 Attach the Radio Point to the octagon box. T F A R D 6-14 M0303A2 4.5.01 September 2020 5 Install the drop rail assembly to the ceiling tile rail. Chapter 6 RP2000 Installation NOTE: The minimum clearance for cooling is 3 inches. 3 Ceiling tile OneCell Hardware Installation, Release 4.5 D R A F T 6-15 Chapter 6 RP2000 Installation 6 Connect Ethernet cable to RP. 7 Replace the ceiling tile. T F A R D 6-16 M0303A2 4.5.01 September 2020 Chapter 6 RP2000 Installation Flown mount The Radio Point can be flown mounted on the end of a rod. This configuration is used for buildings where there are no drop ceilings. Mounting the Radio Point (RP) in the flown configuration requires the hardware listed in Indoor Radio Point (RP2000) installation overview on page 6-2 Figure 6-3. CommScope supplied kit contents Mounting the Radio Point (RP) in the flown configuration requires the following hardware provided by the system integrator:

Rod, 3/8-inch threaded 2 flat washers Nut Lock nut, nylon D R A F T 6-17 OneCell Hardware Installation, Release 4.5 Chapter 6 RP2000 Installation Flown mount installation 1 Attach the threaded, 3/8-inch rod, cut to the required length, to the ceiling. 2 Install the nut and a flat washer on the rod. 3 Slide the octagon box onto the rod and install a flat washer and the nylon lock nut. T F A R D 6-18 M0303A2 4.5.01 September 2020 4 Attach the plate with two screws to the octagon box. Chapter 6 RP2000 Installation 5 Attach the CommScope supplied mounting plate to the Radio Point with four screws. D R A F T 6-19 OneCell Hardware Installation, Release 4.5 Chapter 6 RP2000 Installation 6 Attach the Radio Point to the octagon box. T F A R D 6-20 M0303A2 4.5.01 September 2020 7 Secure the Radio Point to the octagon box plate. Chapter 6 RP2000 Installation D R A F T 6-21 OneCell Hardware Installation, Release 4.5 Chapter 6 RP2000 Installation 8 Connect the Ethernet cable to the Radio Point. Installation is complete. T F A R D 6-22 M0303A2 4.5.01 September 2020 Pole mount Chapter 6 RP2000 Installation The Radio Point can be pole mounted. This configuration is used for building where there are no drop ceilings. Mounting the Radio Point (RP) on a pole requires the following hardware provided by CommScope in the mounting kit:

Mounting bracket 4 screws Figure 6-4. Mounting bracket kit contents Mounting the Radio Point (RP) on a pole requires the following hardware provided by the system integrator:

Adjustable clamp at least 2 inches larger than the circumference of the pole Pole mount installation 1 Attach the bracket to the Radio point. Mounting bracket D R A F T 6-23 OneCell Hardware Installation, Release 4.5 Chapter 6 RP2000 Installation 2 Slide the adjustable clamp through the slots on the Radio Point bracket. 3 Wrap the clamp around the pole and tighten the clamp screw to secure the Radio Point to the pole. 4 Connect the Ethernet cable to the Radio Point. T F A R D 6-24 M0303A2 4.5.01 September 2020 Chapter 6 RP2000 Installation Installation is complete. D R A F T 6-25 OneCell Hardware Installation, Release 4.5 Chapter 6 RP2000 Installation T F A R D 6-26 M0303A2 4.5.01 September 2020 Chapter 7 RP2100 Installation This chapter describes installing Rugged Radio Points on poles and walls. Rugged Radio Point (RP2100) installation overview Pole mount installation Wall mount installation 7-2 7-4 7-17 D R A F T 7-1 OneCell Hardware Installation, Release 4.5 Rugged Radio Point (RP2100) installation overview The Rugged Radio Point (RP) ships with the following hardware:

Chapter 7 RP2100 Installation Radio Point Mounting plate Mounting brackets Four tamper-resistant mounting screws (M5) RJ45, IP67 connector Two 4.3-10 antenna couplers NOTE A tamper-resistant T25 Torx bit, 1/4" hex shank, attached to a driver handle, is required to secure the tamper-resistant mounting screws. Mounting the Radio Point (RP) on a pole requires the following hardware provided by the system integrator:

Two adjustable clamps OneCell Hardware Installation, Release 4.5 D R A F T 7-2 Chapter 7 RP2100 Installation Mounting the Radio Point (RP) on a wall requires the following hardware provided by the system integrator:

Four molly screws capable 50 lb (23 kg) minimum rating Before installing the RP on the pole, terminate the RP end of the Ethernet cable with the RJ45, IP67 connector provided in the box. NOTE Once the Radio Point is installed and the powered on, it may take up to 20 minutes for the frequency to stabilize and lock. T F A R D 7-3 M0303A2 4.5.01 September 2020 Chapter 7 RP2100 Installation Pole mount installation There are two orientations for pole mount installations:

Vertical pole mount Horizontal pole mount NOTE The minimum pole diameter requirement is 4'' (102mm). Vertical pole mount 1 Attach mounting brackets to mounting plate. NOTE: The torque requirement for the bracket mounting screws is 5-6 in-lbs. 2 Slide the adjustable clamp through the slots on each RP mounting bracket on the RP plate. Slide adjustable clamp end through slots OneCell Hardware Installation, Release 4.5 D R A F T 7-4 Chapter 7 RP2100 Installation 3 Wrap each clamp around the pole and tighten the clamp screw to secure the RP to the pole. T F A R D 7-5 M0303A2 4.5.01 September 2020 Chapter 7 RP2100 Installation 4 Insert two screws into the upper holes on opposite sides of the RP as shown in the drawing below. CAUTION Ensure that the RP is oriented correctly with the two antenna connectors at the top of the RP. Required orientation OneCell Hardware Installation, Release 4.5 D R A F T 7-6 Chapter 7 RP2100 Installation 5 Hang the RP to the mounting bracket using the installed screws. Align holes at bottom location of bracket. T F A R D 7-7 M0303A2 4.5.01 September 2020 Chapter 7 RP2100 Installation 6 Insert and tighten the bottom screws through the plate hole into both sides of the RP. Be sure that all four screws are tightened. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. D R A F T 7-8 OneCell Hardware Installation, Release 4.5 Chapter 7 RP2100 Installation 7 Connect the antenna couplers on the top of the RP. NOTE: Check the antenna coupler manufacturers documentation for torque requirements. 8 Connect the Ethernet cable RJ45 end to the bottom of the RP. T F A R D 7-9 M0303A2 4.5.01 September 2020 Chapter 7 RP2100 Installation Horizontal pole mount 1 Attach mounting brackets to mounting plate. NOTE: The torque requirement for the bracket mounting screws is 5-6 in-lbs. T F A R D 7-10 M0303A2 4.5.01 September 2020 Chapter 7 RP2100 Installation 2 Slide the adjustable clamp through the slots on each RP mounting bracket on the RP plate. Slide adjustable clamp end through slots D R A F T 7-11 OneCell Hardware Installation, Release 4.5 Chapter 7 RP2100 Installation 3 Wrap each clamp around the pole and tighten the clamp screw to secure the RP to the pole. 4 Insert two screws into the upper holes on opposite sides of the RP as shown in the drawing below. T F A R D 7-12 M0303A2 4.5.01 September 2020 Chapter 7 RP2100 Installation CAUTION Ensure that the RP is oriented correctly with the two antenna connectors at the top of the RP. Required orientation OneCell Hardware Installation, Release 4.5 D R A F T 7-13 Chapter 7 RP2100 Installation 5 Hang the RP to the mounting bracket using the installed screws. Align holes at bottom location of bracket and install two additional screws. T F A R D 7-14 M0303A2 4.5.01 September 2020 Chapter 7 RP2100 Installation 6 Insert and tighten the bottom screws through the plate hole into both sides of the RP. Be sure that all four screws are tightened. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. D R A F T 7-15 OneCell Hardware Installation, Release 4.5 Chapter 7 RP2100 Installation 7 Connect the antenna couplers on the top of the RP. NOTE: Check the antenna coupler manufacturers documentation for torque requirements. 8 Connect the Ethernet cable RJ45 end to the bottom of the RP. T F A R D 7-16 M0303A2 4.5.01 September 2020 Chapter 7 RP2100 Installation Wall mount installation 1 Drill four holes in the wall using the mounting plate to determine the hole locations. Mount the backplate on the wall with four molly screws. D R A F T 7-17 OneCell Hardware Installation, Release 4.5 Chapter 7 RP2100 Installation 2 Insert two screws into the upper holes on opposite sides of the RP as shown in the drawing below. Required orientation T F A R D 7-18 M0303A2 4.5.01 September 2020 Chapter 7 RP2100 Installation 3 Attach the RP to the mounting plate. Tighten the top screws on the RP and insert and tighten the bottom screws on the RP. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. D R A F T 7-19 OneCell Hardware Installation, Release 4.5 Chapter 7 RP2100 Installation 4 Insert and tighten the bottom screws through the plate hole into both sides of the RP. 5 Connect the antenna couplers on the top of the RP. NOTE: Check the antenna coupler manufacturers documentation for torque requirements. 6 Connect the Ethernet cable RJ45 end to the bottom of the RP. T F A R D 7-20 M0303A2 4.5.01 September 2020

Part III: Appendices Appendix A Safety Appendix B Installation troubleshooting Appendix C Specifications Appendix D Field Replaceable Units Appendix E Cable installation and power separation guidelines D R A F T T F A R D Appendix A Safety This appendix contains specifications for CommScope OneCell, including FCC information and technical data. Radiation Exposure Statement Human exposure limits for OneCell deployments A-2 A-2 D R A F T A-1 OneCell Hardware Installation, Release 4.5 Chapter A Safety Radiation Exposure Statement Important: Changes or modifications not expressly approved by CommScope LLC could void your authority to operate the equipment. The Baseband Controller and RP5100 have been tested and found to comply with the limits for Class A equipment, pursuant to Part 15 of the FCC Rules. This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. For more information, see the publication femtocells and Health at http:// www.femtoforum.org or visit the FCC website at www.fcc.gov. FCC Part 15 NOTE EN55032 WARNING This equipment is compliant with Class A of EN55032. In a residential environment, this equipment may cause radio interference. Human exposure limits for OneCell deployments The human exposure limits for the OneCell product is calculated by using the Maximum Permissible Exposure (MPE) method associated with fixed-type transmitter devices at a minimum exposure distance of 20 cm. Table A-1 includes values for one Radio Point (RP5000 series) and four Radio Points per chassis. M0303A2 4.5.01 September 2020 T F A R D A-2 Chapter A Safety Table A-1. RF exposure for OneCell at maximum power internal antennas for RP5000 series Parameter RPM-A5A11-

B66 RPM-A5A11-

B02 RPM-I5A11-

B01 RPM-I5A11-

B03 RPM-I5A11-

B07 24.13 24.23 24.25 24.00 24.70 Transmitter Duty Cycle %

100 100 100 100 100 Tx Power (dBm) per antenna Tx Loss (dB) Tx Antenna Gain (dBi) Number of Antennas

(MIMO) Contribution due to multiple antennas (dB) Bands Point Source Total EIRP

(watts) Power Density (W/m2) @

20 cm 0 4 2 2 0 4 2 1 0 4 2 3 0 4 2 7 3.0103 3.0103 3.0103 3.0103 3.0103 Derived Total EIRP (dBW) 1.140 1.240 1.260 1.010 1.710 Frequency Range (MHz) 2110-2200 1930-1990 2110-2170 1805-1880 2620-2690 1.300 1.331 1.337 1.262 1.483 2.587 2.647 2.569 2.510 2.950 1. For persons with implants, the maximum calculated distance of 30cm. This applies to any combination of up to four radio modules in Bands 1,3 and 7. 2. For general public and workers, a measured distance of 5mm was determined. This applies to any combination of up to four radio modules in Bands 1,3 and 7. For general public and workers, a calculated distance of 20cm was determined. This applies to any combination of up to four radio modules in Bands 2 and 66. Parameter RPM-I5A11-

B17 RPM-A5A11-

B12 RPM-A5A11-

B14 RPM-A5A11-

B05 RPM-A5A11-

B30 21.70 21.88 21.45 21.58 0.00 Tx Power (dBm) per antenna Tx Loss (dB) Tx Antenna Gain (dBi) Transmitter Duty Cycle %

100 OneCell Hardware Installation, Release 4.5 0 4 100 0 4 100 0 2 100 0 5 100 0 4 2 66 0 4 D R A F T A-3 Chapter A Safety Number of Antennas

(MIMO) Contribution due to multiple antennas (dB) Bands Point Source Total EIRP

(watts) Power Density (W/m2) @

20 cm 12 0.743 1.478 Parameter RPM-I5A11-

B17 RPM-A5A11-

B12 RPM-A5A11-

B14 RPM-A5A11-

B05 RPM-A5A11-

B30 2 2 2 3.0103 3.0103 3.0103 3.0103 3.0103 Derived Total EIRP (dBW)

-1.290

-3.410

-21.990 Frequency Range (MHz) 734-746 729 - 746 758 - 768 869-894 2350-2360 2 5 2 30

-1.540 14 0.702 0.456 0.006 1.396 0.907 0.013 Table A-2 includes values for one Radio Point (RP2000 and RP2100) and four Radio Points per chassis. Table A-2. RF exposure for OneCell at maximum power internal antennas for RP2000 series Parameter Indoor RP-A2014 & RP-I2014 Rugged RP-A2114 & RP-I2114 Tx Power (dBm) per antenna 21 Tx Loss (dB) Tx Antenna Gain (dBi) Transmitter Duty Cycle %

100 Number of Antennas (MIMO) Contribution due to multiple antennas (dB) 0 0 2 21 0 11.8 100 2 21 0 12 100 2 21 0 12.5 100 2 T F A R D A-4 3.0103 3.0103 3.0103 3.0103 3.0103 3.0103 Derived Total EIRP (dBW)

-5.990

-0.990 5.810 6.010 6.510 Bands 12,13,17 1,2,3,4,7,10,25 12,13,17 3 1,2,4,10,25 Frequency Range (MHz) 729-756 1805-2690 729-756 1805-1880 1930-2170 Point Source Total EIRP (watts) 0.252 Power Density (W/m2) @ 20 cm 0.501 0.796 1.584 3.811 7.582 3.991 7.939 4.477 8.908 M0303A2 4.5.01 September 2020 21 0 13.5 100 2 7.510 2620-

2690 2620-

2690 5.637 11.214

-1.110 12 0.775 1.541 21 0 5 2 100 Reference documents Chapter A Safety

[1] Federal Communications Commission Document OET Bulletin 65, Supplement C, 2001, Evaluating Compliance with FCC guidelines for Human Exposure to radio frequency Electromagnetic Fields, US Federal Communications Commission, Office of Engineering and Technology June 2001.

[2] Federal Communications Commission Document OET Bulletin 56, Questions and answers about biological effects and potential hazards of radio frequency electromagnetic fields, Federal Communications Commission Office of Engineering and Technology, August 1999.

[3] ICNIRP Guidelines for limiting exposure to time varying electric, magnetic and electromagnetic fields up to 300 GHz. International Commission on Non Ionizing Radiation, published in Health Physics 74 (4): 494-522; 1998

[4] ICNIRP Statement on EMF-Emitting New Technologies, International Commission on Non-Ionizing Radiation, published in Health Physics 94 (4):376-392, 2008

[5] 3GPP Document 3GPP TS 36.104 version 10.11.0 Release 10, LTE Evolved Universal Terrestrial Radio Access (E-UTRA); Base Station (BS) radio transmission and reception D R A F T A-5 OneCell Hardware Installation, Release 4.5 Chapter A Safety T F A R D A-6 M0303A2 4.5.01 September 2020 Appendix B Installation troubleshooting This section contains information on troubleshooting the OneCell installation. It includes the LED patterns for the Baseband Controller and Radio points. Baseband Controller LED patterns Radio Point LED patterns B-2 B-4 D R A F T B-1 OneCell Hardware Installation, Release 4.5 Appendix B Installation troubleshooting Baseband Controller LED patterns The Baseband Controller has four LEDs on the front panel. The following table shows Display pattern for each LED What the pattern indicates Action to take, if any, to resolve the issue LED Display Pattern Indicates Action to Take STATUS Green, solid None Power On Sectors up RP ERROR Green, solid Power On None Amber, solid Self-test failure Replace Baseband Controller Green, blinking Firmware upgrade from DMS None Sectors not up Amber, blinking No configuration from DMS Check DMS availability Check if the provisioning is correct Escalate to operator OFF BC rebooting after upgrade None Red, solid*

Error in system - software or hardware issues detected Replace Baseband Controller Module Amber, solid Self-test failure Replace Baseband Controller Amber, blinking No Radio Points connected Check RP cable Off Radio Points connected, firmware upgrade from DMS None Red, blinking Check 1588 VLAN configuration Radio Point alarm - PLL state unlock; service impacting alarm from Radio Point (alarm in one or more RP) M0303A2 4.5.01 September 2020 T F A R D B-2 Appendix B Installation troubleshooting LED Display Pattern Indicates Action to Take TIMING LED Green, solid Power On, timing None Amber, solid Self-test failure Replace Baseband Controller Amber, blinking No timing Check GPS antenna connection feed Off Firmware upgrade from DMS None Red, solid*

Error in system Replace Baseband Controller Module CORE LED Green, solid Power On None GPS module down Software/Hardware issues Connection to MME Amber, solid Self-test failure Replace Baseband Controller Amber, blinking No connection to MME IPsec is up Check the MME configuration on the BC Check if MME is reachable Off Firmware upgrade from DMS None Red, blinking Internet connection IPsec down Check if Security Gateway is reachable Check security credentials Red, solid*

No Internet Replace Baseband Controller Module Interface hardware issues

* Note: When all of the LEDs are solid red, there is a BC hardware failure. D R A F T B-3 OneCell Hardware Installation, Release 4.5 Appendix B Installation troubleshooting Radio Point LED patterns This section contains LED patterns for RP5100 series and RP2000 series. RP5100i LED patterns The Radio Point RP5100i supports six LEDs on the front cover. Indicators are for four radios (one for each) ETH 1 MR PORT:POE++, POE+, Ethernet link ETH 2 SR PORT:POE++, POE+, Ethernet link T F A R D B-4 ETH 1, 2 RADIO 1, 2, 3, 4 M0303A2 4.5.01 September 2020 Appendix B Installation troubleshooting The following table shows:

Display pattern for each LED What the pattern indicates Action to take, if any, to resolve the issue LED Display Pattern Indicates Action to Take RADIO 1 Green, solid Power On, transmitting None RADIO 2 RADIO 3 RADIO 4 Amber, solid Red, solid RFTxState OFF No Controller Assigned No Timing No connection to Controller HW error Low Power Check 1588 VLAN configuration Verify that the Radio Point is in STANDBY because more than 32 RPs are connected Hardware error replace Radio Point Green, blinking Firmware upgrade None Amber, blinking RF module Self-Test Failure Replace Radio Module Eth 1 Green, solid Power On, PoE++ power None Amber, solid Link up, no power Check that the Ethernet cable is connected to the Radio Point Green, blinking PoE+ power None Amber, blinking Platform Self-Test Failure Replace Radio Point Red, solid Ethernet port error Connect the Ethernet cable between the Baseband Controller and Radio Point Replace Radio Point Eth 2 Green, solid Power On, PoE++ power None Amber, solid Link up, no power Check that the Ethernet cable is connected to the Radio Point Green, blinking PoE+ power None Amber, blinking Platform Self-Test Failure Replace Radio Point Red, solid Ethernet port error Connect the Ethernet cable between the Baseband Controller and Radio Point Replace Radio Point

* Note: When all of the LEDs are solid red, there is an RP hardware failure. OneCell Hardware Installation, Release 4.5 D R A F T B-5 Appendix B Installation troubleshooting RP5100r LED patterns The Radio Point RP5100r has one LED. The following table includes the LED patterns. LED Display Pattern Indicates Green, blinking Not all available radio modules are in use RFTx ON for all radio modules Action to Take No action required All available radio modules are in use RFTx ON for all radio modules No action required Replace Radio Point Error in the system. No module connected to the BC All modules have low power No modules in use Note: The radio modules may be connected to the BC. Check the connection between the RP and BC. Check that the BC admin status is UP. Green, fast blinking Software upgrade No action required Green, solid Red, solid Red, blinking T F A R D B-6 M0303A2 4.5.01 September 2020 Appendix B Installation troubleshooting RP2000 series LED patterns The RP2000 and RP2100 Radio Points have one LED. The LED for the RP2000

(Indoor) is on the front cover. The LED for the RP2100 (Rugged) is on the bottom of the Radio Point where the Ethernet cable port is located. The following table shows:

Display pattern for each LED What the pattern indicates Action to take, if any, to resolve the issue LED Display Pattern Indicates Action to Take STATUS Green, solid Power On RFTx state is ON Amber, solid Self-test failure None Replace RP None Green, blinking Amber, blinking Firmware upgrade Connected to Baseband Controller PLL state unlock RFTx state OFF or suspended L2 path verification failed Admin state STANDBY Check 1588 VLAN configuration Verify RP is in STANDBY because more than 32 Radio Points are connected to the same Baseband Controller Red, blinking No connection to Baseband Controller

(http) Connect the Ethernet cable between the Baseband Controller and Radio Point Replace RP Red, solid Error in system software or hardware issues Interface issues detected AdminState UNLOCKED Connect the Ethernet cable between the Baseband Controller and Radio Point Upgrade Radio Point Replace Radio Point D R A F T B-7 OneCell Hardware Installation, Release 4.5 Appendix B Installation troubleshooting T F A R D B-8 M0303A2 4.5.01 September 2020 Appendix C Specifications This appendix contains specifications for CommScope OneCell, including FCC information and technical data. Environmental and physical specifications SPF/SPF+ specifications C-2 C-3 D R A F T C-1 OneCell Hardware Installation, Release 4.5 Appendix C Specifications Environmental and physical specifications The following table lists the electrical ratings and technical data for the Baseband Controller, RP5100 series and RP2000/RP2100. Table C-1. Environmental and Physical specifications Baseband Controller Environmental Operating Temperatures: 0C to 40C Operating Humidity 10%-90% Non-Condensing Power Requirements 120/230 VAC,1.7/0.85 A, 50/60 Hz Power Consumption 204W Typical / 216W Maximum Dimensions 1 Rack Unit Chassis hosts 2 Baseband Controller module units 19" W x 1.75" H x 18.8" D (483mm W x 44.4mm H x 477mm D) Single BC 13.1 lbs (5.9 kg) Dual BC 19.1 lbs. (8.7 kg) Weight RP5100i Dimensions Weight RP5100r Environmental Operating Temperatures: 0 to 50C (Plenum rated: UL-2043) Operating Humidity 10%-95% Non-Condensing Operating temperatures: 0C to 50C Active Cooling/Fans, acoustic noise: 39.5 dBA at 25C Power Requirements IEEE802.3bt-type 4 PoE++

Power Consumption Up to: 72W (26W + 11.5W per RM) 13.54" W x13.54 H x 3.35" D

(344.0 mm W x 344.0 mm H x 85.0 mm D) 8.82 lbs (4 kg) Environmental Operating Temperatures: 0 to 50C (Plenum rated: UL-2043) Operating Humidity 10%-95% Non-Condensing Operating temperatures: 0C to 50C Active Cooling/Fans, acoustic noise: 39.5 dBA at 25C Power Requirements IEEE802.3bt-type4 PoE++

Power Consumption Up to: 72W (26W + 11.5W per RM) Dimensions 14.9" W x 12.64" H x 4.06" D

(378.7 mm W x 321.1 mm H x 102.5 mm D) M0303A2 4.5.01 September 2020 T F A R D C-2 Appendix C Specifications Table C-1. Environmental and Physical specifications (continued) Weight RP2000 21.7 lbs (9.85 kg) Environmental Operating Temperatures:0C to 50C (Plenum rated: UL-2043) Operating Humidity: 10%-95% Non-Condensing Power Requirements 802.3at PoE+

Power Consumption 22W Typical / 25.5W Maximum Dimensions 7.4" W x 9.25" H x 1.75" D

(188mm W x 235mm H x 45mm D) 2.6 lbs (1.2 kg) Weight RP2100 Environmental Operating Temperatures: -40C to 60C Power Requirements 802.3at PoE+

Power Consumption 22W Typical / 25.5W Maximum Dimensions 9.3" W x 9.1" H x 3.0" D

(236mm W x 230mm H x 76mm D) Weight 8 lbs (0.6 kg) SPF/SPF+ specifications The following table lists the SPF and SPF+ specifications required for the Baseband Controller. 1G SFP LC SX Transceiver; 220M to 1K M 1G SFP LC LX transceiver, 550M 10K M 10G SFP+ LC SR Transceiver; Multi mode 26M to 300M SFP-10G-LR Transceiver; Single mode 10KM 10G Direct attach SFP+ cable; Twin ax Cable; 7M (must be compatible with HP & Cisco switches OneCell Hardware Installation, Release 4.5 D R A F T C-3 Appendix C Specifications T F A R D C-4 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units This appendix contains instructions for replacing Baseband Controller modules and Radio Points in the OneCell system. FRU overview Replacing Baseband Controller modules Replacing RP5100 series Radio Points Replacing RP5100i RF modules Replacing RP2000 series Radio Points RP post-replacement verification D-2 D-2 D-16 D-47 D-52 D-85 D R A F T D-1 OneCell Hardware Installation, Release 4.5 Appendix D Field Replaceable Units FRU overview Field Replaceable Units (FRUs) are modules that can be replaced on-site in case of equipment failure. On-site and off-site activities are required when replacing modules. The off-site activities are achieved by using DMS. This appendix contains details for replacing Baseband Controllers (BC) modules and Radio Points (RP). Replacing Baseband Controller modules The following procedure provides instructions for replacing the OneCell Baseband Controller (BC) module in a live network environment. This procedure is divided into four sections:

Prerequisites Off-site activities On-site activities Post-Install Verification Prerequisites The following table contains a checklist of prerequisites for replacing a BC. Prerequisite UDEF file for DMS import SSH password Replacement OneCell BC module Laptop for Web GUI access Config.tar file containing operator information Note: This file should be saved on the Laptop that will be used for WebGUI access. License file (if applicable) Note: This file should be saved on the Laptop that will be used for WebGUI access. M0303A2 4.5.01 September 2020 T F A R D D-2 Appendix D Field Replaceable Units Prerequisite Configuration details for WebGUI commissioning Note: These parameters are derived from the failed unit being replaced. Ethernet cable Note: Required for connecting the laptop to the OneCell Baseband Controller Management port DMS FTP IP address Off-site activities Before replacing the BC module, import a new EDF file to the DMS. This file contains the BC MAC address and HeMs password specific to the new BC. 1 Access the FTP location on DMS using ftp protocol, port 2100. 2 Upload the EDF file to /appdata/dms/import/factory. 3 Access the DMS Network console from a supported Web Browser. NOTE: The DMS GUI supports Internet Explorer versions 9, 10 and 11 and Chrome version 36 Web browsers, and a screen resolution of 1024 x 768 and higher. 4 Enter the IP address for the Network Management portal. http://<IP Address DMS server>/networkconsole The Sign In dialog box displays. D R A F T D-3 OneCell Hardware Installation, Release 4.5 Appendix D Field Replaceable Units 5 Enter Username and Password. The Search Device screen displays. 6 Enter the device Mac ID. The Network Management Portal opens. 7 Select Import tab located in the left margin of the Device console. 8 Select File Import. 9 Browse and select the desired import file. The EDF file format is xml. T F A R D D-4 10 Click Import. 11 Click Import Progress. Wait for the import to be completed. M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 12 Click the Operational History icon in the upper right corner of the page. The Operational History page displays. Check that the file import was successful. 13 Login to the Device console. OneCell Hardware Installation, Release 4.5 D R A F T D-5 Appendix D Field Replaceable Units 14 Enter the MAC ID of the replacement Baseband Controller. NOTE: Your CommScope service engineer will provide the new BC MAC ID. 15 Select the Device configuration tab on the left margin. 16 Configure the same parameters from the BC being replaced. M0303A2 4.5.01 September 2020 T F A R D D-6 Appendix D Field Replaceable Units 17 Select the Dashboard menu item. The Controller will display "Out of Service" until the On-site installation is completed. On-site activities After the off-site activities are complete, you are ready to replace the BC module on-

site. 1 Power off the OneCell Baseband Controller. OneCell Hardware Installation, Release 4.5 D R A F T D-7 Appendix D Field Replaceable Units 2 Make a note of the existing cables connected to the failed OneCell BC. 3 Label the cables identifying the port locations on the BC. Disconnect the cables. T F A R D D-8 4 Remove the GPS antenna cable from the BC (if applicable). M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 5 Turn the mounting screws on the BC front panel counterclockwise to loosen them and remove the BC module. 6 Insert the new BC module into the chassis and tighten the mounting screws. OneCell Hardware Installation, Release 4.5 D R A F T D-9 Appendix D Field Replaceable Units 7 Re-connect the cables as noted in step 3. T F A R D D-10 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 8 Power on the controller. 9 Configure the BC. Follow configuration procedures starting with Accessing the Web GUI on page 8-19. Post-Install Verification On-site The operational state of the OneCell system can be determined by the LED status on the BCs front panel. Additional information can be attained from the WebGUI status screens. Start the verification with Verify the OneCell system installation on page 9-2 and continue through the end of the chapter. Off-site 1 Open a supported Web browser. NOTE: The DMS GUI supports Internet Explorer versions 9, 10 and 11 and Chrome version 36 Web browsers, and a screen resolution of 1024 x 768 and higher. D R A F T OneCell Hardware Installation, Release 4.5 D-11 Appendix D Field Replaceable Units 2 Enter the IP address for the Device Management portal. http://<IP Address DMS server>/deviceconsole The Sign In dialog box displays. 3 Enter Username and Password. The Search Device screen displays. T F A R D 4 Enter the MAC ID of the new BC. The BC Dashboard displays. The Summary at the top of the page should show Ready. D-12 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units NOTE: Provision the remaining Device configurations to align with the failed BC configuration on the DMS Device Configuration page. 5 Scroll to the bottom of the page to view the Device PnP status. If all of the PnP boxes have green checks, the BC replacement is successful. Stop here. If one or more of the PnP boxes are red, those activities failed. Go to the Device PnP page to identify the failed activity. Replacing Radio Points prerequisites and on-site activities Prepare the network for the Radio Point replacement. Prerequisites On-site activities Prerequisites The following table contains a checklist of prerequisites for replacing an RP. Prerequisite SSH password Replacement OneCell RP module D R A F T OneCell Hardware Installation, Release 4.5 D-13 Appendix D Field Replaceable Units Prerequisite Laptop for Web GUI access Ethernet cable Note: Required for connecting the laptop to the OneCell Baseband Controller Management port On-site activities Before replacing the RP, delete the RP from the system using the WebGUI. 1 Connect the Ethernet cable to the MGMT port on the BCs front panel. 2 Open a supported browser. 3 Enter the IP address for the GUI, using the format below. https://<IP address of Management Interface>:6002 Example:

https://192.168.8.1:6002 The Sign In dialog box appears. T F A R D D-14 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 4 Ensure the Management Mode tab is selected. The Dashboard displays. D R A F T OneCell Hardware Installation, Release 4.5 D-15 Appendix D Field Replaceable Units 5 On the Dashboard, click the Radio Points link. The Radio Points Dashboard displays. 6 Click the RP Information tab. T F A R D 7 If one of the Radio Points is Down, select that RP by checking the box next to it. 8 Click Delete. 9 Check the Radio Point Information table to ensure the RP is deleted. Replacing RP5100 series Radio Points The following procedures provide instructions for replacing a OneCell Radio Point

(RP) module in a live network environment. Replacing a ceiling RP5100i (above tile) Replacing a flown mounted RP5100i D-16 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units Replacing a pole mounted RP5100i RP post-replacement verification Replacing a ceiling RP5100i (above tile) 1 Remove the ceiling tile next to the mounted RP to allow access to the mounting hardware and Ethernet cable. 2 Remove the RP cover. D R A F T OneCell Hardware Installation, Release 4.5 D-17 Appendix D Field Replaceable Units T F A R D D-18 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 3 Disconnect the Ethernet cable. D R A F T OneCell Hardware Installation, Release 4.5 D-19 Appendix D Field Replaceable Units 4 Replace the cover and twist the RP clockwise to remove it. Set the failed RP aside. T F A R D D-20 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 5 Attach the mounting plate to the replacement RP. NOTE: Apply thread locking compound to the screws prior to installation. D R A F T OneCell Hardware Installation, Release 4.5 D-21 Appendix D Field Replaceable Units 6 Attach the RP to the octagonal mounting plate and twist to engage. T F A R D D-22 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 7 Remove the cover and connect the Ethernet cable to the MR port. NOTE: The cover is attached to the RP with two lanyards. D R A F T OneCell Hardware Installation, Release 4.5 D-23 Appendix D Field Replaceable Units 8 Attach the plastic cover to the RP. 9 Replace the ceiling tile. T F A R D D-24 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 10 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing a ceiling Indoor RP (on tile) 1 Remove the RP cover. NOTE: The cover is attached to the RP with two lanyards. D R A F T OneCell Hardware Installation, Release 4.5 D-25 Appendix D Field Replaceable Units 2 Disconnect the Ethernet cable from the RP. T F A R D D-26 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 3 Replace the cover and twist the RP clockwise and remove the failed RP. D R A F T OneCell Hardware Installation, Release 4.5 D-27 Appendix D Field Replaceable Units 4 Attach the plate to the replacement RP. NOTE: Apply thread locking compound to the screws prior to installation. T F A R D D-28 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 5 Attach the RP to the octagonal mounting plate. 6 Secure the RP to the plate by twisting the RP counterclockwise. D R A F T OneCell Hardware Installation, Release 4.5 D-29 Appendix D Field Replaceable Units 7 Remove the cover and connect the Ethernet cable to the MR port. NOTE: The cover is attached to the RP with two lanyards. T F A R D D-30 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 8 Attach the plastic cover to the Radio Point. 9 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. D R A F T OneCell Hardware Installation, Release 4.5 D-31 Appendix D Field Replaceable Units Replacing a flown mounted RP5100i 1 Remove the RP cover. NOTE: The cover is attached to the RP with two lanyards. T F A R D D-32 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 2 Disconnect the Ethernet cable. D R A F T OneCell Hardware Installation, Release 4.5 D-33 Appendix D Field Replaceable Units 3 Replace the cover and twist the RP clockwise. T F A R D D-34 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 4 Remove the failed RP. D R A F T OneCell Hardware Installation, Release 4.5 D-35 Appendix D Field Replaceable Units 5 Attach the mounting plate to the RP. NOTE: Apply thread locking compound to the screws prior to installation. T F A R D D-36 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 6 Attach the RP to the octagon box. D R A F T OneCell Hardware Installation, Release 4.5 D-37 Appendix D Field Replaceable Units 7 Twist the RP counterclockwise. T F A R D D-38 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 8 Remove the RP cover. NOTE: The cover is attached to the RP with two lanyards. D R A F T OneCell Hardware Installation, Release 4.5 D-39 Appendix D Field Replaceable Units 9 Connect the Ethernet cable to the MR port. T F A R D D-40 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 10 Replace the RP cover. 11 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. D R A F T OneCell Hardware Installation, Release 4.5 D-41 Appendix D Field Replaceable Units Replacing a pole mounted RP5100i 1 Remove the RP cover. NOTE: The cover is attached to the RP with two lanyards. T F A R D D-42 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 2 Disconnect the Ethernet cable. D R A F T OneCell Hardware Installation, Release 4.5 D-43 Appendix D Field Replaceable Units 3 Loosen the clamp and remove the RP. 4 Attach the bracket to the replacement RP. T F A R D D-44 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 5 Attach the replacement RP to the pole using the clamp. D R A F T OneCell Hardware Installation, Release 4.5 D-45 Appendix D Field Replaceable Units 6 Remove the cover and connect the Ethernet cable to the RP. NOTE: The cover is attached to the RP with two lanyards. T F A R D D-46 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 7 Replace the cover on the RP. 8 Verify the RP installation. The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing RP5100i RF modules The following procedures provide instructions for replacing a OneCell Radio Point RF module. WARNING Disconnect the Ethernet cable(s) on the RP to remove the power. Failure to do so will cause damage the RP. OneCell Hardware Installation, Release 4.5 D-47 D R A F T Appendix D Field Replaceable Units 1 Remove the RP cover. 2 Disconnect the Ethernet cable on the RP. T F A R D 3 Unscrew the RF module. D-48 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 4 Remove the RF module. D R A F T 5 Install the replacement RF module. OneCell Hardware Installation, Release 4.5 D-49 Appendix D Field Replaceable Units 6 Secure it in the slot. 7 Connect the Ethernet cable. T F A R D D-50 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units D R A F T OneCell Hardware Installation, Release 4.5 D-51 Appendix D Field Replaceable Units 8 Attach the RP cover. 9 Verify the RF module installation. The operational state of the RF module can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing RP2000 series Radio Points This procedure provides instructions for replacing a OneCell RP2000 series Radio Point in a live network environment. Replacing a ceiling Indoor RP (above tile) 1 Remove the ceiling tile below the mounted RP to allow access to the mounting hardware and Ethernet cable. T F A R D D-52 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 2 Loosen the locking screw. NOTE: The locking screw is not on newer RP2000s. 3 Disconnect the Ethernet cable. OneCell Hardware Installation, Release 4.5 D-53 D R A F T Appendix D Field Replaceable Units 4 Twist the RP to remove it. T F A R D D-54 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 5 Remove the mounting plate from the failed RP and attach it to the replacement RP. Set the failed RP aside. NOTE: Apply thread locking compound to the screws prior to installation. 6 Attach the RP to the octagonal mounting plate and twist to engage. D R A F T OneCell Hardware Installation, Release 4.5 D-55 Appendix D Field Replaceable Units 7 Connect the Ethernet cable to the RP. T F A R D D-56 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 8 Replace the ceiling tile. 9 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. D R A F T OneCell Hardware Installation, Release 4.5 D-57 Appendix D Field Replaceable Units Replacing a ceiling Indoor RP (on tile) 1 Disconnect the Ethernet cable from the RP. 2 If there is a locking screw, loosen it. 3 Twist the RP. T F A R D D-58 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 4 Remove the RP. Remove the mounting plate from the RP and set the RP aside. D R A F T OneCell Hardware Installation, Release 4.5 D-59 Appendix D Field Replaceable Units 5 Attach the plate to the replacement RP. NOTE: Apply thread locking compound to the screws prior to installation. 6 Attach the RP to the octagonal mounting plate. T F A R D D-60 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 7 Secure RP to octagon plate. 8 Connect the Ethernet cable to the RP. 9 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. OneCell Hardware Installation, Release 4.5 D-61 D R A F T Appendix D Field Replaceable Units Replacing a flown mounted Indoor RP 1 Disconnect the Ethernet cable. 2 Remove the RP. T F A R D D-62 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 3 Remove the mounting plate from the RP and set the failed RP aside. 4 Attach the mounting plate to the replacement RP. NOTE: Apply thread locking compound to the screws prior to installation. D R A F T OneCell Hardware Installation, Release 4.5 D-63 Appendix D Field Replaceable Units 5 Attach the RP to the octagon plate. T F A R D D-64 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 6 Secure the RP. D R A F T OneCell Hardware Installation, Release 4.5 D-65 Appendix D Field Replaceable Units 7 Connect the Ethernet cable to the RP. 8 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing a pole mounted Indoor RP 1 Disconnect the Ethernet cable. T F A R D D-66 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 2 Loosen the clamp, remove the RP and set it aside. 3 Remove the bracket from the failed RP and attach it to the replacement RP. OneCell Hardware Installation, Release 4.5 D-67 D R A F T Appendix D Field Replaceable Units Bracket 4 Attach the replacement RP to the pole using the clamp. 5 Connect the Ethernet cable to the RP. T F A R D D-68 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 6 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing a vertical pole mounted Rugged RP 1 Disconnect the Ethernet cable and the antenna couplers from the RP. D R A F T OneCell Hardware Installation, Release 4.5 D-69 Appendix D Field Replaceable Units 2 Remove the screws on the bottom of the RP and loosen the top screws. T F A R D D-70 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 3 Lift the RP off of the mounting plate and set it aside. D R A F T OneCell Hardware Installation, Release 4.5 D-71 Appendix D Field Replaceable Units 4 Insert two screws into the upper holes on the replacement RP. NOTE: Do not tighten the screws. T F A R D D-72 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units CAUTION Ensure that the RP is oriented correctly with the two antenna connectors at the top of the RP. Required orientation 5 Hang the RP to the mounting bracket using the installed screws. Align holes at bottom location of bracket and install two additional screws. D R A F T OneCell Hardware Installation, Release 4.5 D-73 Appendix D Field Replaceable Units T F A R D D-74 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 6 Insert two screws on the bottom of the RP and tighten all four screws. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. 7 Connect the antenna couplers on the top of the RP. NOTE: Check the antenna coupler manufacturers documentation for torque requirements. 8 Connect the Ethernet cable RJ45 end to the bottom of the RP. D R A F T OneCell Hardware Installation, Release 4.5 D-75 Appendix D Field Replaceable Units 9 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing a horizontal pole mounted Rugged RP 1 Disconnect the Ethernet cable and the antenna couplers from the RP. T F A R D D-76 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 2 Remove the screws on the bottom of the RP and loosen the top screws. D R A F T OneCell Hardware Installation, Release 4.5 D-77 Appendix D Field Replaceable Units 3 Lift the failed RP off of the mounting plate and set it aside. T F A R D 4 Insert two screws into the upper holes on the replacement RP. NOTE: Do not tighten the screws. D-78 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units CAUTION Ensure that the RP is oriented correctly with the two antenna connectors at the top of the RP. Required orientation 5 Attach the RP to the mounting plate. Tighten the top screws on the RP and insert and tighten the bottom screws on the RP. NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. D R A F T OneCell Hardware Installation, Release 4.5 D-79 Appendix D Field Replaceable Units 6 Connect the antenna couplers on the top of the RP. NOTE: Check the antenna coupler manufacturers documentation for torque requirements. 7 Connect the Ethernet cable RJ45 end to the bottom of the RP. T F A R D D-80 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 8 Verify the RP installation. See The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. Replacing a wall mounted Rugged RP 1 Disconnect the Ethernet cable and the antenna couplers from the RP. D R A F T OneCell Hardware Installation, Release 4.5 D-81 Appendix D Field Replaceable Units 2 Remove the screws on the bottom of the RP, loosen the top screws and remove RP from mounting plate. Set RP aside. T F A R D D-82 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 3 On the replacement RP, insert two screws into the upper holes. Required orientation 4 Attach the RP to the mounting plate. Tighten the top screws on the RP and insert and insert and the bottom screws on the RP. OneCell Hardware Installation, Release 4.5 D-83 D R A F T Appendix D Field Replaceable Units NOTE: The torque requirement for the mounting screws is 20-21 in-lbs. 5 Connect the antenna couplers on the top of the RP. NOTE: Check the antenna coupler manufacturers documentation for torque requirements. 6 Connect the Ethernet cable RJ45 end to the bottom of the RP. T F A R D D-84 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 7 The operational state of the RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. For verification procedures, see RP post-replacement verification. RP post-replacement verification The operational state of the replaced RP can be determined by the LED status on the RP. Additional information can be attained from the WebGUI status screens. 1 Connect the Ethernet cable to the MGMT port on the BCs front panel. D R A F T OneCell Hardware Installation, Release 4.5 D-85 Appendix D Field Replaceable Units 2 Open a supported browser. 3 Enter the IP address for the GUI, using the format below. https://<IP address of Management Interface>:6002 Example:

https://192.168.8.1:6002 The Sign In dialog box appears. T F A R D D-86 M0303A2 4.5.01 September 2020 Appendix D Field Replaceable Units 4 Ensure the Management Mode tab is selected. The Dashboard displays. 5 On the Dashboard, click the Radio Points link. The Radio Points Dashboard displays. 6 Click the RP Information tab. The RP Information page displays. OneCell Hardware Installation, Release 4.5 D-87 D R A F T Appendix D Field Replaceable Units 7 Make sure the replaced RP is UP. T F A R D D-88 M0303A2 4.5.01 September 2020

Appendix E Cable installation and power separation guidelines This section contains best practices for installing Ethernet cables and connecting them to RPs. Overview Cable handling Cable termination Lightning protection Ceiling connector Patch panel Power separation guidelines E-2 E-2 E-3 E-12 E-15 E-17 E-17 D R A F T E-1 OneCell Hardware Installation, Release 4.5 Appendix E Cable installation and power separation guidelines Overview When installing Rugged RPs, cables that can withstand temperature extremes and inclement weather should be used. In outside environments, avoid contamination or damage to plugs. Plugs must be protected from sunlight and water in a suitable equipment housing or NEMA 4 rated box. It is also important to avoid exposure to water at cut ends of unfilled cables and cords. The following information is available to help you extend the operation of your RP and switches. Cable handling Indoor/outdoor cords can be routed outdoors above ground and indoors, and can be ordered in lengths long enough for direct (home-run) installations from switch to end equipment. Cords have 20% Insertion Loss De-rating so only 85 meters total can be supported. Extended lengths can be cut in two for terminating the indoor ends at protectors or panels. Terminations are similar to typical 4-pair indoor cables. Unreel long lengths of cable to ensure the cable does not become twisted or caught on objects. Figure E-1. Unreel cable T F A R D E-2 CommScope recommends using a sock fitted and secured over the plug to pull cable through long conduits. Sock information Tie wrap information M0303A2 4.5.01 September 2020 Appendix E Cable installation and power separation guidelines Figure E-2. Cable with sock attached using tie wrap Sock Conduit Tie-wrap Feed the sock through the conduit and secure the sock on the terminal end of the cable with the tie-wrap. Once the sock and tie-wrap are in place, pull the cable through the conduit. Cable termination Before installing the Rugged RP, terminate the RP end of the Ethernet cable with the RJ45, IP67 connector provided in the box. Figure E-3. RJ45, IP67 connector Flip the plug anti-snag to make it easier to push through the cord grips (flip it back before plugging in). OneCell Hardware Installation, Release 4.5 D R A F T E-3 Appendix E Cable installation and power separation guidelines Use the split grommet provided. Once it is in place, coat it with silicone to ensure the connector is sealed. Figure E-4. Assembling the connector on the RP end Cable splicing Some cables are run in one piece from source to destination and have connector terminations. In other cases, two shorter pieces of cable need to be spliced together. When a cable is run to outdoor devices, you should take measures to ensure that cables are properly protected against moisture entering the cable. This is especially important when the jacket is stripped back from the wires. Some cables are gel filled and the termination includes cleaning the excess gel and blocking the end with silicone sealant to prevent future leakage. A typical blocking method uses a 2 cm length of Alpha Wire PVC-105-2 tubing or equivalent. 1 Fill all space inside the tubing with B-sealant. M0303A2 4.5.01 September 2020 T F A R D E-4 Appendix E Cable installation and power separation guidelines 2 Position the filled tube to overlap the end of the inner jacket and seal the gel. Clean off all excess sealant. NOTE: Tape can be used to stabilize the tube for immediate termination before the sealant sets. Cable termination Shielded cables must be properly terminated, either grounded or isolated. For exposed installations requiring protection, the end of the shield can be bonded in various ways. The following procedure is an example of one method. 1 Make a slit along the length of the jacket. Be careful not to tear the underlying shielding. D R A F T E-5 OneCell Hardware Installation, Release 4.5 Appendix E Cable installation and power separation guidelines 2 Pull back the jacket along the slit and remove. T F A R D E-6 M0303A2 4.5.01 September 2020 Appendix E Cable installation and power separation guidelines 3 Fold back the foil shielding and drain wire to expose the inner jacket. 4 Prepare the inner jacket for blocking the gel and direct burial. a Cut back the inner jacket b Trim the flute c Clean the excess gel NOTE: The flute can be cut longer to match the blocking tube length. D R A F T E-7 OneCell Hardware Installation, Release 4.5 Appendix E Cable installation and power separation guidelines 5 Fill all space inside the tubing with B-sealant and position the filled tube to overlap the end of the inner jacket and seal the gel. 6 Fold the drain wire and foil back over the tube and position the foil to be folded back over the tube. T F A R D E-8 M0303A2 4.5.01 September 2020 Appendix E Cable installation and power separation guidelines 7 An extra piece of foil can be used to cover the foil seam. 8 For an HGS620 termination, wrap the drain wire at least two times around and position it where the spring clips will capture them. 9 Tape over the foil for stability. 10 Trim the wire ends. OneCell Hardware Installation, Release 4.5 D R A F T E-9 Appendix E Cable installation and power separation guidelines Cable grounding For CAT-6A cables, the shield termination method is to use the ground lug and B-

bond clip that are available in the 12A1 Grounding Kit. 1 Fold the foil back over the jacket end and wrap the drain wire around the end and push the ground lug over the wrap. T F A R D E-10 M0303A2 4.5.01 September 2020 Appendix E Cable installation and power separation guidelines 2 Open the B-bonding clip to be placed and closed over the grounding lug. 3 The lug tail can be cut off or used for ground attachment. 4 Treat the inner jacket as described in step 4 on page E-7. OneCell Hardware Installation, Release 4.5 D R A F T E-11 Appendix E Cable installation and power separation guidelines For an isolated shield termination, the 1572A and 1592A outer jacket foil and drain wire are removed a short distance back from the termination and electrical tape is used to isolate the foil end. Lightning protection CommScope recommends including lightning protection in your OneCell system to isolate equipment from surge damage. Important guidelines Verify hole diameter blocking may need to remain outside the cover Maintain pair twists up to termination points Avoid having pairs crossing over each other Indoor box To protect the cables in an indoor installation from lightning damage, CommScope recommends using the ITW Linx CAT6-A-LAN protector. NOTE The gel filled outdoor cable types will still need blocking. See Cable splicing and Cable termination for instructions on blocking cable. E-12 M0303A2 4.5.01 September 2020 T F A R D Appendix E Cable installation and power separation guidelines Figure E-5. CAT6-A lightning protector Outdoor protection The following is an example of a pole mounted CAT-6A configuration for protecting remote equipment installed outdoors. Table E-1 lists the recommended parts for installing the protection equipment. Table E-1. CAT-6A protection equipment parts list Part Name Link to Part on Distributors Web site NEMA 4x enclosure Allied Moulded fiberglass enclosure Bottom Mounted Liquid Tight Cordgrips Heyco pre-assembled cordgrips Bottom Mounted Liquid Tight Bushing Heyco liquid tight bushings snap-in Allied Moulded back panel Ditek surge protection buss Ditek 110RJC6APOE Protector Allied Moulded pole mount kit Back panel Ground buss Protector Pole mount kit D R A F T E-13 OneCell Hardware Installation, Release 4.5 Appendix E Cable installation and power separation guidelines Figure E-6. Remote equipment protection for outdoor devices Back panel NEMA 4x enclosure Bottom Mounted Liquid Tight Cordgrips Ground Buss Bottom Mounted Liquid Tight Bushing NOTE Enclosure should be mounted close to the equipment for the best protection. T F A R D E-14 M0303A2 4.5.01 September 2020 Appendix E Cable installation and power separation guidelines Figure E-7. Protector box mounted to pole Pole Mount kit Ceiling connector If surge protection is not needed, gel flooded cables can be blocked and transitioned to indoor cable using a ceiling connector. The following link is for the recommended CommScope part. Ceiling connector 1 Terminate the indoor cable first then lay down a bed of B sealant. OneCell Hardware Installation, Release 4.5 Minimize excess cord length D R A F T E-15 Appendix E Cable installation and power separation guidelines 2 Clean all gel from the end of the OSP cable. 3 After the cable and conductors are positioned, fill the area around the cable end with sealant and close the connector housing. T F A R D E-16 M0303A2 4.5.01 September 2020 Appendix E Cable installation and power separation guidelines Patch panel CommScope recommends installing a patch panel in the NOC to connect and manage CAT-6A cables. The following is a list of recommended CommScope 24 and 48 port patch panels and high density information outlets. 760163436_HFTP-HD6B-1U-24 760163444_HFTP-HD6B-2U-48 760163451_HFTPA-HD6B-1U-24 760163469_HFTPA-HD6B-2U-48 760163519_HFTP-J6 760163527_HFTP-J10G For more information, go to CommScope.com or contact your CommScope customer representative. Power separation guidelines For power separation best guidelines, refer to the following standards:

Telecommunications Pathways and Spaces, TIA-569-C Information technology Implementation and operation of customer premises cabling Part 2: Planning and installation, ISO/IEC 14763-2 Information Technology Cabling Installation Part 2: Installation Planning and practices inside buildings, BS EN 50174-2 D R A F T E-17 OneCell Hardware Installation, Release 4.5 Appendix E Cable installation and power separation guidelines T F A R D E-18 M0303A2 4.5.01 September 2020 B OneCell Hardware Installation, Release 4.5 DRAFT OneCell Hardware Installation, Release 4.5 M0303A2 4.5.01 September 2020

CommScope Technologies OneCell Radio Module RPM-A5A11-B05 900 Chelmsford Street Lowell, MA 01851 T: +1 978-614-2916 December 20, 2021 To FCC:

FCC Class II Permissive Change Request for Company:

CommScope LLC FCC ID: QHYRPM-A5A11-B05 We are applying for a class II permissive change request for the addition of 5G waveforms to the filing. Product description: OneCell Radio module RPM-A5A11-B05, FCC ID: QHYRPM-A5A11-B05. The transmitter circuitry has not changed; we are only adding support for 5G to the previous filing. Original Grant date 12/3/2020 Sincerely, Zachary Johnson _________________________ Regulatory Engineer 900 Chelmsford Street Lowell, MA 01851

FCC Confidentiality Request Letter 900 Chelmsford Rd Lowell, MA 01850 T: +1 978-250-3000 2/4/2022 To:

Federal Communications Commission 7435 Oakland Mills Road Columbia, MD 21046-1609 Intertek TCB 70 Codman Hill Road Boxborough, MA 01719 Confidentiality Request Re:

FCC ID QHYRPM-A5A11-B05 Pursuant to Sections 0.457(d)(1)(ii) and 0.459 of the Commissions Rules, CommScope Technologies LLC hereby requests permanent confidential treatment of information accompanying this application as outlined below:

1. Operational description The above materials contain trade secrets and proprietary information not customarily released to the public. The public disclosure of these matters might be harmful to the Applicant and provide unjustified benefits to its competitors. The Applicant understands that pursuant to Rule 0.457(d)(1)(ii), disclosure of this Application and all accompanying materials will not be made before the date of the Grant for this Application. Sincerely, ___________________________ Zachary Johnson Regulatory Engineer 2/4/2022

CommScope Technologies OneCell Radio Module RPM-A5A11-B05 900 Chelmsford Street Lowell, MA 01851 T: +1 978-614-2916 December 20, 2021 To FCC:

FCC Class II Permissive Change Request for Company:

CommScope LLC FCC ID: QHYRPM-A5A11-B05 We are applying for a class II permissive change request for the addition of 5G waveforms to the filing. Product description: OneCell Radio module RPM-A5A11-B05, FCC ID: QHYRPM-A5A11-B05. The transmitter circuitry has not changed; we are only adding support for 5G to the previous filing. Original Grant date 5/3/2021 Sincerely, Zachary Johnson _________________________ Regulatory Engineer 900 Chelmsford Street Lowell, MA 01851

Cross Point Tower 900 Chelmsford Street Lowell, MA 01851 T: +1 978-250-3000 Introduction of new host platform for Radio FCC-ID QHYRPM-A5A11-B05 Company Name: CommScope Technologies, LLC FCC ID: QHYRPM-A5A11-B05 To Whom It May Concern, FCC ID: QHYRPM-A5A11-B05 will be examined against the introduction of a new host platform, RP5200. This new platform will be used in addition to the current approved platform RP5100. There have been no hardware changes to the radio module, or the antenna mounted to the module from the previous filing, original grant date 12/03/2020. ____________________________________ 04/30/2021 Sincerely, Consulting Engineer 900 Chelmsford Street Lowell, MA 01851

FCC Confidentiality Request Letter Cross Point Tower 900 Chelmsford Street Lowell, MA 01851 T: +1 978-250-3000 4/30/2021 To: Federal Communications Commission 7435 Oakland Mills Road Columbia, MD 21046-1609 Intertek TCB 70 Codman Hill Road Boxborough, MA 01719 Confidentiality Request Re:

FCC ID QHYRPM-A511-B05 Pursuant to Sections 47 CFR 0.457(d)(1)(ii) of the Commissions Rules, CommScope Technologies LLC hereby requests short-term confidential treatment of information accompanying this application as outlined below for a period of 180 days:

1. Test photos The Applicant understands that pursuant to Rule 47 CFR 0.457(d)(1)(ii), disclosure of this Application and all accompanying materials will not be made before the date of the Grant for this Application. Sincerely, ___________________________ Kevin Craig Consulting Mechanical Engineer 4/30/2021

Agents Authorization Letter 250 Apollo Drive Suite 100 Chelmsford, MA 01824 T: +1 978-250-3000 8/1/2019 I do hereby authorize, until further notice, Intertek, 70 Codman Hill Rd, Boxborough, MA 01719, to act on our behalf in dealings before the Federal Communications Commission with respect to all matters relating to equipment authorizations under 47 CFR. This authorization includes, but is not limited to, the signing of Form 731. I certify that no party (as defined in 47 CFR 1.2002) to this application, including myself, is subject to a denial of federal benefits, that include FCC benefits, pursuant to section 5301 of the Anti-Drug Abuse Act of 1988, 21 U.S.C., 853A. Certified By:

__________________ Kevin Craig Consulting Engineer. 8/1/2019

900 Chelmsford St Lowell, MA 01851 T: +1 978-250-2678 Tune Up Procedure Declaration 4/20/2020 Gentlemen:

This letter declares that the product associated with the submission of FCC ID QHYRPM-A5A11-B05 does not require any tune up procedure for proper operation. Sincerely, To: Intertek TCB 70 Codman Hill Road Boxborough, MA 01719 Kevin Craig Consulting Mechanical Engineer 04/20/2020